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These are the user uploaded subtitles that are being translated: 1 00:00:05,980 --> 00:00:08,580 Notre Dame de Paris... 2 00:00:08,620 --> 00:00:10,950 A treasured icon of Gothic architecture 3 00:00:10,980 --> 00:00:13,720 and medieval engineering, 4 00:00:13,750 --> 00:00:15,650 built from glass, 5 00:00:15,680 --> 00:00:17,220 stone, 6 00:00:17,250 --> 00:00:18,850 and timber over the course 7 00:00:18,880 --> 00:00:20,150 of two centuries. 8 00:00:20,180 --> 00:00:26,250 For 850 years, this 226-foot-tall cathedral 9 00:00:26,280 --> 00:00:29,650 has been an enduring symbol at the heart 10 00:00:29,680 --> 00:00:32,320 of French culture, and more... 11 00:00:32,350 --> 00:00:34,980 Notre Dame is one of humanity's greatest 12 00:00:35,020 --> 00:00:36,820 artistic and architectural achievements. 13 00:00:36,850 --> 00:00:39,056 Notre Dame is not just Paris. 14 00:00:39,080 --> 00:00:40,180 It's France. 15 00:00:40,220 --> 00:00:41,220 And beyond France, 16 00:00:41,250 --> 00:00:42,420 it's the world. 17 00:00:42,450 --> 00:00:46,250 But on April 15, 2019, 18 00:00:46,280 --> 00:00:49,520 a disaster that threatens to destroy it all strikes. 19 00:00:51,420 --> 00:00:56,480 A massive fire raging out of control... 20 00:00:57,450 --> 00:00:58,880 Oh, my God! 21 00:00:58,920 --> 00:01:02,450 Leaves the cathedral in ruins. 22 00:01:04,080 --> 00:01:06,750 Now, an elite team of engineers, 23 00:01:06,780 --> 00:01:07,850 scientists, 24 00:01:07,880 --> 00:01:10,420 and master craftspeople, 25 00:01:10,450 --> 00:01:13,120 battle to save this fragile structure 26 00:01:13,150 --> 00:01:15,050 from a catastrophic collapse. 27 00:01:21,080 --> 00:01:23,950 Out of tragedy, an opportunity is born... 28 00:01:23,980 --> 00:01:25,920 Oh! 29 00:01:25,950 --> 00:01:27,720 This is a dating fossil. 30 00:01:27,750 --> 00:01:31,520 To solve archaeological mysteries 31 00:01:31,550 --> 00:01:32,696 and understand the very fabric 32 00:01:32,720 --> 00:01:35,580 of this medieval megastructure 33 00:01:35,620 --> 00:01:36,920 like never before. 34 00:01:36,950 --> 00:01:39,680 We can identify each chemical element. 35 00:01:40,950 --> 00:01:42,480 Can clues from the past 36 00:01:42,520 --> 00:01:47,850 help save and rebuild this landmark? 37 00:01:47,880 --> 00:01:49,320 And can pioneering technology 38 00:01:49,350 --> 00:01:51,120 prevent another disaster? 39 00:01:53,820 --> 00:01:55,250 What we are producing today 40 00:01:55,280 --> 00:02:00,320 will be the information usable for the next generations. 41 00:02:00,350 --> 00:02:01,880 "Saving Notre Dame"... 42 00:02:01,920 --> 00:02:04,820 right now, on "NOVA." 43 00:02:24,920 --> 00:02:27,040 Major funding for "NOVA" is provided by the following: 44 00:02:29,820 --> 00:02:33,420 The Cathedral of Notre Dame de Paris... 45 00:02:33,450 --> 00:02:37,050 an 850-year-old Gothic wonder. 46 00:02:37,080 --> 00:02:38,380 It's the heart of France. 47 00:02:38,420 --> 00:02:41,850 The distance from Paris to all other places 48 00:02:41,880 --> 00:02:45,380 is traditionally measured from this iconic structure. 49 00:02:45,420 --> 00:02:46,850 There is a continuation, 50 00:02:46,880 --> 00:02:49,520 a historical continuation, 51 00:02:49,550 --> 00:02:51,680 from the Middle Ages to nowadays. 52 00:02:51,720 --> 00:02:57,380 And it's very important to build a kind of identity. 53 00:02:57,420 --> 00:03:00,320 Notre Dame is one of the monuments 54 00:03:00,350 --> 00:03:04,820 which achieved this identity. 55 00:03:04,850 --> 00:03:06,356 For Christians, it's a place of worship, right? 56 00:03:06,380 --> 00:03:07,956 And, and for those of us with different beliefs, 57 00:03:07,980 --> 00:03:11,320 it's one of just this incredibleartistic and historic landmark. 58 00:03:11,350 --> 00:03:13,180 You've had coronations there, 59 00:03:13,220 --> 00:03:15,980 you've had the crowning of Napoleon and King Henry. 60 00:03:16,020 --> 00:03:17,280 There's just so much attached 61 00:03:17,320 --> 00:03:18,580 to the cathedral. 62 00:03:18,620 --> 00:03:21,050 But Notre Dame is much more than that. 63 00:03:21,080 --> 00:03:24,280 It's also a pinnacle of medieval engineering. 64 00:03:26,280 --> 00:03:29,720 The cathedral can hold 9,000 worshippers, 65 00:03:29,750 --> 00:03:32,280 and its 100-foot tall walls 66 00:03:32,320 --> 00:03:38,080 contain more than 32,000 square feet of stained glass. 67 00:03:38,120 --> 00:03:40,850 The ceiling is a series of domed Gothic vaults 68 00:03:40,880 --> 00:03:45,880 that hold up the cathedral from the inside. 69 00:03:45,920 --> 00:03:49,050 A complex 550-ton web of timber 70 00:03:49,080 --> 00:03:51,380 forms a cross-shaped roof, 71 00:03:51,420 --> 00:03:54,550 topped with 1,300 lead tiles 72 00:03:54,580 --> 00:03:57,720 and a 300-foot tall central spire. 73 00:04:01,120 --> 00:04:05,380 Wrapped around the church are 28 flying buttresses, 74 00:04:05,420 --> 00:04:09,880 limestone arches that brace the walls from the outside. 75 00:04:09,920 --> 00:04:13,050 And at the front, two mighty towers, 76 00:04:13,080 --> 00:04:16,980 with ten massive bronze bells inside, 77 00:04:17,020 --> 00:04:22,380 soar over 226 feet into the sky over Paris. 78 00:04:23,550 --> 00:04:26,480 The construction took many generations. 79 00:04:26,520 --> 00:04:29,420 Architecture was not learned at the university, 80 00:04:29,450 --> 00:04:35,150 so the architects and allworkers learned mostly on site. 81 00:04:35,180 --> 00:04:38,920 Along the way, there were many setbacks. 82 00:04:38,950 --> 00:04:42,680 In 1789, at the height of the French Revolution, 83 00:04:42,720 --> 00:04:43,950 anti-Catholic forces 84 00:04:43,980 --> 00:04:47,520 destroy parts of the Cathedral. 85 00:04:47,550 --> 00:04:50,020 A newly secular France leaves Notre Dame 86 00:04:50,050 --> 00:04:52,380 in a state of neglect. 87 00:04:52,420 --> 00:04:56,580 But when Victor Hugo writes "The Hunchback of Notre Dame" 88 00:04:56,620 --> 00:05:01,280 in 1831, it sparks a $60 million restoration, 89 00:05:01,320 --> 00:05:05,280 that tops out the cathedral with a new roof 90 00:05:05,320 --> 00:05:09,220 and a 750-ton timber and lead spire. 91 00:05:13,150 --> 00:05:17,980 Periodic renovations continue to this day. 92 00:05:18,020 --> 00:05:20,350 On April 15, 2019, 93 00:05:20,380 --> 00:05:25,120 Notre Dame is wrapped in 550 tons of scaffolding, 94 00:05:25,150 --> 00:05:26,480 as workers begin 95 00:05:26,520 --> 00:05:31,150 a $6 million operation toshore up the cathedral's spire. 96 00:05:35,720 --> 00:05:37,250 Notre Dame's rector, 97 00:05:37,280 --> 00:05:39,050 Father Patrick Chauvet, 98 00:05:39,080 --> 00:05:40,450 has finished evening worship. 99 00:05:40,480 --> 00:05:45,850 His world is about to be turned upside down. 100 00:05:45,880 --> 00:05:47,456 I stopped here because 101 00:05:47,480 --> 00:05:49,880 I really like Mado. 102 00:05:49,920 --> 00:05:53,720 She offered me a drink, and when she came back she said, 103 00:05:53,750 --> 00:05:58,220 "Father, there's smoke above the spire of the cathedral." 104 00:05:58,250 --> 00:06:03,580 So I left my drink and went back to check there was nobody 105 00:06:03,620 --> 00:06:06,720 in the cathedral. 106 00:06:06,750 --> 00:06:11,150 At 6:18 p.m., a sensor detects smoke 107 00:06:11,180 --> 00:06:13,580 in the medieval roof timbers. 108 00:06:13,620 --> 00:06:17,550 The system sends a coded fire alert to the security team. 109 00:06:17,580 --> 00:06:19,820 Instead of heading straight for the roof, 110 00:06:19,850 --> 00:06:23,180 a guard is dispatched to the sacristy building nearby, 111 00:06:23,220 --> 00:06:25,120 to check for a fire. 112 00:06:25,150 --> 00:06:27,050 But he finds nothing. 113 00:06:27,080 --> 00:06:29,650 He climbs up into the church attic. 114 00:06:29,680 --> 00:06:34,020 But by the time he gets there, he's too late. 115 00:06:34,050 --> 00:06:37,080 The fire has been burning for almost 30 minutes 116 00:06:37,120 --> 00:06:40,420 and has spread across the roof. 117 00:06:44,450 --> 00:06:45,956 And there was this horrifyingly 118 00:06:45,980 --> 00:06:49,650 huge plume of smoke billowing up out of it. 119 00:06:49,680 --> 00:06:50,750 It was surreal. 120 00:06:50,780 --> 00:06:52,380 I'd never seen anything like that before. 121 00:06:54,150 --> 00:06:55,450 You saw the fire trucks come up 122 00:06:55,480 --> 00:06:57,350 alongside the cathedral and ladders went up, 123 00:06:57,380 --> 00:07:00,250 and the hoses came out, you could see that the ladders 124 00:07:00,280 --> 00:07:02,420 were just too small for a building of this size 125 00:07:02,450 --> 00:07:04,680 and the hoses were not nearly big enough 126 00:07:04,720 --> 00:07:05,750 for this kind of blaze. 127 00:07:05,780 --> 00:07:06,856 It was tragic; the resources 128 00:07:06,880 --> 00:07:08,650 that were available were not going to be 129 00:07:08,680 --> 00:07:10,640 what was needed to bring this thing under control. 130 00:07:12,120 --> 00:07:13,380 A lot of us realized 131 00:07:13,420 --> 00:07:16,150 that this fire was just going to ravage the cathedral. 132 00:07:16,180 --> 00:07:17,626 We saw what was happening, 133 00:07:17,650 --> 00:07:19,020 but we were powerless, 134 00:07:19,050 --> 00:07:20,880 we could do nothing. 135 00:07:20,920 --> 00:07:22,620 It really looked like the end of the world. 136 00:07:22,650 --> 00:07:25,250 It was so chaotic. 137 00:07:25,280 --> 00:07:28,080 A delay in responding to a fire of this nature 138 00:07:28,120 --> 00:07:29,380 is absolutely critical. 139 00:07:29,420 --> 00:07:32,850 A small fire burning locally is a very different thing 140 00:07:32,880 --> 00:07:35,880 than ten minutes laterwhen all of the timber elements 141 00:07:35,920 --> 00:07:37,250 are involved. 142 00:07:37,280 --> 00:07:38,620 So in a situation like this, 143 00:07:38,650 --> 00:07:40,620 five, ten, 30 minutes can make all the difference. 144 00:07:40,650 --> 00:07:46,820 This delay will have huge repercussions. 145 00:07:46,850 --> 00:07:48,126 As firefighters arrive on scene, 146 00:07:48,150 --> 00:07:50,180 so does one of France's chief architects 147 00:07:50,220 --> 00:07:52,150 of historic monuments, 148 00:07:52,180 --> 00:07:53,780 Rémi Fromont. 149 00:07:53,820 --> 00:07:55,656 I managed to pass the police checkpoint 150 00:07:55,680 --> 00:07:57,820 and I joined the firefighters. 151 00:07:57,850 --> 00:08:02,250 As the inferno rages at the top of the cathedral, 152 00:08:02,280 --> 00:08:04,550 Rémi risks his life to venture inside 153 00:08:04,580 --> 00:08:07,450 with the firefighters. 154 00:08:07,480 --> 00:08:09,556 We did a tour of the cathedral several times. 155 00:08:09,580 --> 00:08:11,680 We checked the nave. 156 00:08:11,720 --> 00:08:15,180 I saw the flames and saw the blaze. 157 00:08:15,220 --> 00:08:17,980 I gave them all the advice that I could. 158 00:08:18,020 --> 00:08:21,780 Within minutes, the firefighters are pumping tons of water 159 00:08:21,820 --> 00:08:23,080 into the roof space, 160 00:08:23,120 --> 00:08:26,080 but to no avail. 161 00:08:26,120 --> 00:08:27,480 To the horror of the growing crowd, 162 00:08:27,520 --> 00:08:29,220 the fire engulfs the iconic spire. 163 00:08:32,780 --> 00:08:34,620 The world watches helplessly 164 00:08:34,650 --> 00:08:39,780 as the 750 ton oak and lead masterpiece gives way. 165 00:08:41,450 --> 00:08:43,050 Oh, my God! 166 00:08:43,080 --> 00:08:44,620 Oh, my God... 167 00:08:44,650 --> 00:08:46,780 That is awful. 168 00:08:50,280 --> 00:08:51,520 When the spire 169 00:08:51,550 --> 00:08:55,220 fell into the roof, additional ventilation 170 00:08:55,250 --> 00:08:56,950 will have caused more oxygen-rich air 171 00:08:56,980 --> 00:08:59,680 to be sucked in at the bottom of the compartment. 172 00:08:59,720 --> 00:09:01,180 That influx of oxygen 173 00:09:01,220 --> 00:09:04,020 could have caused an increase in the severity of the fire 174 00:09:04,050 --> 00:09:07,880 within Notre Dame. 175 00:09:07,920 --> 00:09:10,480 All of a sudden, there was a huge, huge ball of fire 176 00:09:10,520 --> 00:09:12,780 rising out of the cathedral. 177 00:09:12,820 --> 00:09:17,780 It was spitting ash and debriseverywhere, so we took shelter. 178 00:09:17,820 --> 00:09:21,050 It was just devastating to watch. 179 00:09:21,080 --> 00:09:23,450 We were suddenly really aware 180 00:09:23,480 --> 00:09:25,680 that of, of how easily this whole thing could come down. 181 00:09:27,780 --> 00:09:29,450 90 minutes after the fire begins, 182 00:09:29,480 --> 00:09:34,580 the entire roof of the cathedral is ablaze. 183 00:09:34,620 --> 00:09:37,450 Inside, it's become even more dangerous for Rémi 184 00:09:37,480 --> 00:09:40,150 and the firefighters. 185 00:09:40,180 --> 00:09:43,820 Getting this fire under control looks impossible. 186 00:09:43,850 --> 00:09:44,956 The fire on the ground, 187 00:09:44,980 --> 00:09:46,720 smoke everywhere, a hole in the ceiling. 188 00:09:46,750 --> 00:09:48,850 We were trying to understand what was going on, 189 00:09:48,880 --> 00:09:51,680 where the problems where, check what had collapsed 190 00:09:51,720 --> 00:09:53,650 and if there were other risks. 191 00:09:53,680 --> 00:09:56,820 A southeasterly wind picks up 192 00:09:56,850 --> 00:09:59,780 and pushes the blaze towards the famous bell towers. 193 00:09:59,820 --> 00:10:01,156 If the bell towers catch fire, 194 00:10:01,180 --> 00:10:02,350 and the bells fall, 195 00:10:02,380 --> 00:10:04,950 then they will smash through everything below. 196 00:10:04,980 --> 00:10:08,150 Inside the ingeniously engineered 197 00:10:08,180 --> 00:10:09,950 13th century north tower 198 00:10:09,980 --> 00:10:14,520 a scaffold of wooden beams holds eight bells. 199 00:10:14,550 --> 00:10:18,250 The biggest weighing more than four tons. 200 00:10:18,280 --> 00:10:20,120 If the beams burn through, 201 00:10:20,150 --> 00:10:23,650 they'll spark a fatal chain reaction, 202 00:10:23,680 --> 00:10:26,450 causing the bells to fall like wrecking balls, 203 00:10:26,480 --> 00:10:31,650 destroying the tower's wooden backbone. 204 00:10:31,680 --> 00:10:36,950 If the tower falls, it could trigger a deadly domino effect 205 00:10:36,980 --> 00:10:42,220 that brings down the entire cathedral. 206 00:10:44,780 --> 00:10:46,620 To avert this catastrophic collapse, 207 00:10:46,650 --> 00:10:49,620 the firefighters have no option 208 00:10:49,650 --> 00:10:52,020 but to venture deeper inside. 209 00:10:52,050 --> 00:10:54,126 "No doubt, 210 00:10:54,150 --> 00:10:56,020 we must send the firefighters in. 211 00:10:56,050 --> 00:10:57,350 The cathedral must be saved." 212 00:10:58,950 --> 00:11:00,326 We headed to the North tower 213 00:11:00,350 --> 00:11:03,550 just when the flames had reached the belfry. 214 00:11:06,020 --> 00:11:08,680 The firefighters also knew it well. 215 00:11:08,720 --> 00:11:10,820 We were guiding each other. 216 00:11:17,520 --> 00:11:20,880 To douse the fire on the roof, firefighters pump water 217 00:11:20,920 --> 00:11:23,750 from the River Seine and feed it to fire trucks 218 00:11:23,780 --> 00:11:25,720 around the cathedral. 219 00:11:25,750 --> 00:11:28,980 But to stop the towerscollapsing they must send a team 220 00:11:29,020 --> 00:11:31,450 into the burning structure. 221 00:11:31,480 --> 00:11:35,050 Drop hoses in between the towers 222 00:11:35,080 --> 00:11:38,980 and fight the fire spreading from the roof. 223 00:11:39,020 --> 00:11:41,380 But the steady wind doesn't let up. 224 00:11:41,420 --> 00:11:44,550 And despite their efforts, the timber frame holding the bells 225 00:11:44,580 --> 00:11:47,450 has caught fire and could trigger the destruction 226 00:11:47,480 --> 00:11:50,150 of the cathedral at any moment. 227 00:11:50,180 --> 00:11:53,550 So the team must drag their hoses to the top of the tower 228 00:11:53,580 --> 00:11:57,980 and soak the timber frame to prevent the unthinkable. 229 00:12:03,520 --> 00:12:05,050 Throughout the night, 230 00:12:05,080 --> 00:12:08,450 the fate of Notre Dame hangs in the balance. 231 00:12:08,480 --> 00:12:12,050 Eventually the firefighters get the upper hand. 232 00:12:12,080 --> 00:12:16,380 The flames have been beaten back and only glowing embers 233 00:12:16,420 --> 00:12:18,720 light up the night sky. 234 00:12:18,750 --> 00:12:21,950 Nobody knows how the fire started. 235 00:12:21,980 --> 00:12:24,420 An investigation begins. 236 00:12:24,450 --> 00:12:27,050 But for now, the urgent question: 237 00:12:27,080 --> 00:12:29,520 how damaged is the structure 238 00:12:29,550 --> 00:12:32,720 and can it ever be rebuilt? 239 00:12:32,750 --> 00:12:35,280 President Macron pledges to restore the cathedral 240 00:12:35,320 --> 00:12:37,080 in five years. 241 00:12:37,120 --> 00:12:39,920 Tonight, I tell you very solemnly, 242 00:12:39,950 --> 00:12:44,820 we will rebuild this cathedral together. 243 00:12:44,850 --> 00:12:50,780 Meanwhile, the world keeps vigil for Notre Dame. 244 00:12:56,850 --> 00:12:58,750 Daylight reveals the full extent 245 00:12:58,780 --> 00:13:02,620 of the terrible destruction wrought by the fire. 246 00:13:04,050 --> 00:13:07,780 The oak roof and spire are completely destroyed. 247 00:13:07,820 --> 00:13:11,080 Tons of toxic lead that covered the roof 248 00:13:11,120 --> 00:13:12,720 have been sprayed into the air, 249 00:13:12,750 --> 00:13:14,550 contaminating the site. 250 00:13:14,580 --> 00:13:17,880 Burned roof timbers cover the vaulting. 251 00:13:17,920 --> 00:13:21,050 Three gaping holes in the stone vaults 252 00:13:21,080 --> 00:13:23,080 weaken the entire structure. 253 00:13:23,120 --> 00:13:27,350 And the 550 ton scorched carcass of scaffolding 254 00:13:27,380 --> 00:13:29,820 could collapse at any moment, 255 00:13:29,850 --> 00:13:33,950 something unthinkableto those tasked with preserving 256 00:13:33,980 --> 00:13:36,720 France's rich cultural heritage. 257 00:13:36,750 --> 00:13:38,756 I'm in front of my cathedral, 258 00:13:38,780 --> 00:13:39,950 which is in this state. 259 00:13:39,980 --> 00:13:41,680 I need to work. 260 00:13:41,720 --> 00:13:43,520 Phillipe Villeneuve is in charge 261 00:13:43,550 --> 00:13:46,380 of historic monuments in France. 262 00:13:46,420 --> 00:13:49,580 This is the cathedral that inspired him 263 00:13:49,620 --> 00:13:51,620 to become an architect. 264 00:13:51,650 --> 00:13:54,650 I must have been five 265 00:13:54,680 --> 00:13:56,250 or six years old. 266 00:13:56,280 --> 00:13:58,250 My parents brought me here one day, 267 00:13:58,280 --> 00:14:00,880 like every child from Paris. 268 00:14:00,920 --> 00:14:03,520 I was fascinated by the architecture. 269 00:14:03,550 --> 00:14:06,620 It stayed with me since. 270 00:14:06,650 --> 00:14:10,880 Since 2013, Phillipe has been responsible 271 00:14:10,920 --> 00:14:13,280 for conserving Notre Dame. 272 00:14:13,320 --> 00:14:14,790 It was the culmination 273 00:14:14,820 --> 00:14:16,080 of a dream. 274 00:14:16,120 --> 00:14:18,620 A dream come true. 275 00:14:18,650 --> 00:14:21,450 Today that dream has turned into a nightmare. 276 00:14:23,180 --> 00:14:27,380 The stricken cathedral is a giant house of cards. 277 00:14:27,420 --> 00:14:29,150 If the stone vaulting collapses 278 00:14:29,180 --> 00:14:33,720 the weight of the buttresseswill push in the 100-foot walls. 279 00:14:33,750 --> 00:14:37,920 And Notre Dame will be no more. 280 00:14:42,520 --> 00:14:46,980 So Phillipe heads up a rapid response team... 281 00:14:47,020 --> 00:14:48,550 dozens of engineers, 282 00:14:48,580 --> 00:14:52,220 architects, and scientists. 283 00:14:52,250 --> 00:14:54,950 Their task is to prevent a total collapse of the cathedral. 284 00:14:54,980 --> 00:14:57,026 From the bottom of my heart, 285 00:14:57,050 --> 00:14:59,226 I want to thank you all for your dedication, your approach, 286 00:14:59,250 --> 00:15:00,580 your passion. 287 00:15:00,620 --> 00:15:03,350 You are doing a very difficult job, which is essential 288 00:15:03,380 --> 00:15:04,520 for the cathedral. 289 00:15:05,950 --> 00:15:08,220 It's not only a difficult job, 290 00:15:08,250 --> 00:15:11,480 it's also hazardous. 291 00:15:11,520 --> 00:15:13,820 The crumbling stone vaults 292 00:15:13,850 --> 00:15:15,950 and twisted scaffolding make any visit 293 00:15:15,980 --> 00:15:19,020 inside to investigate the stability of the structure 294 00:15:19,050 --> 00:15:21,950 extremely dangerous. 295 00:15:21,980 --> 00:15:24,226 On the vaults we have the problem of the impact 296 00:15:24,250 --> 00:15:27,550 of the fire, but we will alsohave to evaluate 297 00:15:27,580 --> 00:15:31,120 the impact of the water used to put out the fire. 298 00:15:31,150 --> 00:15:35,120 And we can see from here the inside of... 299 00:15:36,880 --> 00:15:37,920 Go out. 300 00:15:37,950 --> 00:15:40,150 The scaffolding is moving. 301 00:15:40,180 --> 00:15:41,720 Scaffolding! 302 00:15:41,750 --> 00:15:43,656 Motion sensors are installed in the melted jumble 303 00:15:43,680 --> 00:15:45,420 of scaffolding overhead. 304 00:15:45,450 --> 00:15:47,680 These can be triggered by gusts of wind... 305 00:15:47,720 --> 00:15:51,380 a warning before a possible full-scale collapse. 306 00:15:56,150 --> 00:15:59,450 It's the alarm, because the scaffolding has moved. 307 00:15:59,480 --> 00:16:02,820 We must leave. 308 00:16:02,850 --> 00:16:07,520 There are evacuations like this each week; necessary, 309 00:16:07,550 --> 00:16:09,620 but an impediment to the urgent work 310 00:16:09,650 --> 00:16:11,180 of stabilizing the structure. 311 00:16:15,080 --> 00:16:19,620 It's very difficult to juggle all these issues. 312 00:16:19,650 --> 00:16:23,550 The problem is that we have to take action very quickly. 313 00:16:23,580 --> 00:16:25,280 But we need to consider 314 00:16:25,320 --> 00:16:26,820 the reality of this building. 315 00:16:26,850 --> 00:16:30,850 It's still in danger of collapse. 316 00:16:30,880 --> 00:16:32,356 We are still in the stabilization phase 317 00:16:32,380 --> 00:16:34,780 of the cathedral. 318 00:16:34,820 --> 00:16:37,020 To avert a catastrophic collapse, 319 00:16:37,050 --> 00:16:40,820 engineers could builda steel skeleton inside the nave 320 00:16:40,850 --> 00:16:43,680 to brace the walls. 321 00:16:43,720 --> 00:16:46,650 Then, even if the vaulting caves in, 322 00:16:46,680 --> 00:16:50,350 the walls of Notre Dame would stay standing. 323 00:16:50,380 --> 00:16:54,520 But it's far too dangerous for workers to erect steelwork 324 00:16:54,550 --> 00:16:57,120 beneath the compromised structure. 325 00:16:57,150 --> 00:16:59,920 We cannot go under the vaults because we don't know 326 00:16:59,950 --> 00:17:01,580 whether they'll fall or not. 327 00:17:01,620 --> 00:17:04,680 So, instead of bracing the walls from the inside, 328 00:17:04,720 --> 00:17:07,720 the team will build timber frames 329 00:17:07,750 --> 00:17:10,580 under the buttresses outside. 330 00:17:10,620 --> 00:17:14,750 Now, if the vaulting does fall in, the buttresses can't push 331 00:17:14,780 --> 00:17:19,620 on the walls, and they won't come tumbling down. 332 00:17:27,920 --> 00:17:30,380 They are very difficult because 333 00:17:30,420 --> 00:17:32,450 no flying buttress is identical to another. 334 00:17:32,480 --> 00:17:35,120 They are made to measure. 335 00:17:35,150 --> 00:17:37,350 Workers at this factory race to cut 336 00:17:37,380 --> 00:17:41,150 and assemble around 250 tons of timber 337 00:17:41,180 --> 00:17:44,620 to create the massive supports Philippe's team needs 338 00:17:44,650 --> 00:17:47,880 to prop up the vaults. 339 00:17:47,920 --> 00:17:49,256 It's critical each support fits perfectly 340 00:17:49,280 --> 00:17:50,850 beneath each flying buttress 341 00:17:50,880 --> 00:17:52,480 to hold its weight. 342 00:17:56,950 --> 00:18:00,780 Working around and inside this space 343 00:18:00,820 --> 00:18:03,580 is a logistical nightmare. 344 00:18:03,620 --> 00:18:07,080 210 tons of lead cladding covered the cathedral roof. 345 00:18:07,120 --> 00:18:08,980 This was mostly melted during the fire, 346 00:18:09,020 --> 00:18:15,380 and now toxic lead dust covers every surface. 347 00:18:15,420 --> 00:18:17,120 The worksite is highly contaminated. 348 00:18:17,150 --> 00:18:18,650 Until the site is cleaned, 349 00:18:18,680 --> 00:18:21,650 team members must wear full protective clothing 350 00:18:21,680 --> 00:18:25,550 to pass into the contaminated zone. 351 00:18:25,580 --> 00:18:26,920 When leaving site, 352 00:18:26,950 --> 00:18:29,380 they undress, 353 00:18:29,420 --> 00:18:32,580 discard all clothing, 354 00:18:32,620 --> 00:18:33,620 carefully wash equipment, 355 00:18:33,650 --> 00:18:36,020 then shower themselves. 356 00:18:36,050 --> 00:18:40,180 Only then can they go back to the clean area 357 00:18:40,220 --> 00:18:41,850 even for a lunch break. 358 00:18:44,050 --> 00:18:47,020 It's very difficult to endure for the workers 359 00:18:47,050 --> 00:18:50,480 who have had to deal with these procedures for months. 360 00:18:50,520 --> 00:18:53,820 These regulations are not normal. 361 00:18:53,850 --> 00:18:58,850 But this whole site is not normal. 362 00:18:58,880 --> 00:19:01,180 But, finally, five months later, 363 00:19:01,220 --> 00:19:04,820 all 28 flying buttresses are locked in place 364 00:19:04,850 --> 00:19:07,180 and the walls are safe. 365 00:19:07,220 --> 00:19:11,520 Now they can turn to the next challenge... 366 00:19:11,550 --> 00:19:13,850 secure the melted mass of scaffolding 367 00:19:13,880 --> 00:19:17,080 that hangs precariously over the cathedral. 368 00:19:19,380 --> 00:19:21,980 The scaffold weighs more than a jumbo jet, 369 00:19:22,020 --> 00:19:27,250 and only rests on four spindly legs. 370 00:19:27,280 --> 00:19:31,080 The team plans to wrap three massive steel lattice beams 371 00:19:31,120 --> 00:19:35,950 around it to tie the fragile upper parts together. 372 00:19:35,980 --> 00:19:39,250 Then they'll build more scaffolding either side 373 00:19:39,280 --> 00:19:41,750 and lay steel beams across it. 374 00:19:43,620 --> 00:19:47,680 That way workers can get inside the stricken scaffolding 375 00:19:47,720 --> 00:19:52,550 to help cut off its 50,000 steel poles, 376 00:19:52,580 --> 00:19:57,920 a truly Herculean task. 377 00:19:57,950 --> 00:20:00,980 Only then can the team put up a temporary roof 378 00:20:01,020 --> 00:20:02,850 to protect them from the elements 379 00:20:02,880 --> 00:20:05,850 while they rebuild Notre Dame. 380 00:20:05,880 --> 00:20:08,090 It's going to be an extremely dangerous operation. 381 00:20:08,120 --> 00:20:09,850 The spire has disappeared, 382 00:20:09,880 --> 00:20:12,250 but the scaffolding is still there. 383 00:20:12,280 --> 00:20:14,920 It moves a bit, but it's still there. 384 00:20:14,950 --> 00:20:18,550 While engineers gear up to remove the scaffolding, 385 00:20:18,580 --> 00:20:21,250 architect Rémi Fromont 386 00:20:21,280 --> 00:20:22,880 and Livio De Luca 387 00:20:22,920 --> 00:20:26,020 begin a groundbreaking project that will combine 388 00:20:26,050 --> 00:20:28,880 the investigative work with new scientific analysis. 389 00:20:28,920 --> 00:20:34,950 Their ambition is to create adata-rich model of Notre Dame... 390 00:20:34,980 --> 00:20:38,120 a digital twin. 391 00:20:38,150 --> 00:20:42,520 The digital twin will embed not only the geometric structure, 392 00:20:42,550 --> 00:20:46,150 or the visual appearance of the cathedral, 393 00:20:46,180 --> 00:20:51,950 but also all the scientific data coming from the studies. 394 00:20:51,980 --> 00:20:54,620 For example, you can click on a stone in the vault 395 00:20:54,650 --> 00:20:57,050 and access to all the information 396 00:20:57,080 --> 00:21:01,080 about its physical properties such as the provenance, 397 00:21:01,120 --> 00:21:03,750 but also the mechanical behavior 398 00:21:03,780 --> 00:21:06,920 within the entire structure. 399 00:21:06,950 --> 00:21:09,720 Luckily for Livio, a series of highly detailed 400 00:21:09,750 --> 00:21:15,480 laser scans of the cathedralhave been conducted since 2006. 401 00:21:15,520 --> 00:21:20,180 These are brought together in this priceless 3D dynamic map 402 00:21:20,220 --> 00:21:23,120 to show every stone, timber, and iron nail in the structure, 403 00:21:23,150 --> 00:21:28,220 across time, from the12th century to the present day. 404 00:21:28,250 --> 00:21:32,750 This is an unprecedented project. 405 00:21:32,780 --> 00:21:36,280 The ambition is to collect all the information from the past, 406 00:21:36,320 --> 00:21:38,050 to pass it to the future. 407 00:21:38,080 --> 00:21:41,680 There's very little first-hand information 408 00:21:41,720 --> 00:21:43,380 about the construction of Notre Dame, 409 00:21:43,420 --> 00:21:46,620 or the craftspeople who built it. 410 00:21:46,650 --> 00:21:48,280 In the wake of the fire, 411 00:21:48,320 --> 00:21:50,580 new studies of the cathedral's materials 412 00:21:50,620 --> 00:21:52,950 could unlock these secrets. 413 00:21:54,950 --> 00:21:57,750 This new data, once included in the digital twin, 414 00:21:57,780 --> 00:22:02,950 will provide a blueprint for the restoration and rebuild. 415 00:22:05,650 --> 00:22:08,180 Inside Notre Dame, 416 00:22:08,220 --> 00:22:13,480 scientists begin to gather data and investigate the damage 417 00:22:13,520 --> 00:22:14,620 to treasured statues, 418 00:22:14,650 --> 00:22:15,720 murals, 419 00:22:15,750 --> 00:22:17,280 and windows. 420 00:22:20,820 --> 00:22:25,220 The cathedral's most fragile wonder, its stained glass, 421 00:22:25,250 --> 00:22:28,450 dates back to the 13th century. 422 00:22:28,480 --> 00:22:31,580 36 windows circled the lower level, 423 00:22:31,620 --> 00:22:37,650 42 around the middle level, and 43 around the upper level. 424 00:22:37,680 --> 00:22:40,350 The three famous Rose windows 425 00:22:40,380 --> 00:22:43,380 span up to 42 feet in diameter 426 00:22:43,420 --> 00:22:46,680 and are made up of over 1,100 panels 427 00:22:46,720 --> 00:22:48,850 of beautiful stained glass. 428 00:22:48,880 --> 00:22:52,620 Miraculously, they survive the fire intact. 429 00:22:52,650 --> 00:22:54,850 But the intense heat that melted 430 00:22:54,880 --> 00:22:57,220 the cathedral's lead-covered roof 431 00:22:57,250 --> 00:22:59,080 means that much of the glasswork 432 00:22:59,120 --> 00:23:03,120 is now covered in a layer of toxic lead powder. 433 00:23:03,150 --> 00:23:06,220 Removing it could damage the delicate glass 434 00:23:06,250 --> 00:23:10,120 and be harmful to restorers. 435 00:23:10,150 --> 00:23:14,220 It was really painful to see the catastrophe on the TV. 436 00:23:14,250 --> 00:23:18,820 I was looking to see what's happen around the windows 437 00:23:18,850 --> 00:23:21,550 and it was, of course, totally difficult 438 00:23:21,580 --> 00:23:24,150 to have a good idea of what's happened. 439 00:23:24,180 --> 00:23:27,950 There is a before and after 15 April, 440 00:23:27,980 --> 00:23:30,680 for historical monuments, that's for sure. 441 00:23:30,720 --> 00:23:33,880 Glass scientist Claudine Loisel 442 00:23:33,920 --> 00:23:36,120 uses a handheld digital microscope 443 00:23:36,150 --> 00:23:38,550 to investigate the levels of lead powder 444 00:23:38,580 --> 00:23:41,120 on the stained glass. 445 00:23:41,150 --> 00:23:43,180 She must then formulate a strategy 446 00:23:43,220 --> 00:23:47,150 to clean every single panel;a vast decontamination program. 447 00:23:47,180 --> 00:23:50,920 This window is in the back of the cathedral, 448 00:23:50,950 --> 00:23:54,520 in the lower level, furthest from the inferno. 449 00:23:54,550 --> 00:23:58,920 But it's still badly contaminated. 450 00:24:00,920 --> 00:24:04,980 Fortunately, these windows havenot been cleaned for 100 years, 451 00:24:05,020 --> 00:24:07,850 so the lead has settled on top 452 00:24:07,880 --> 00:24:11,750 of a dust layer, not on the glass itself. 453 00:24:11,780 --> 00:24:15,750 The first thick layer of deposit was, we can say 454 00:24:15,780 --> 00:24:17,580 has a small protection in one way. 455 00:24:17,620 --> 00:24:21,220 So we have just to remove all the deposit, 456 00:24:21,250 --> 00:24:24,620 to clean these windows from the 19th century. 457 00:24:24,650 --> 00:24:28,650 Claudine examines deposits from windows around the cathedral. 458 00:24:28,680 --> 00:24:31,350 The samples reveal vital clues 459 00:24:31,380 --> 00:24:33,420 about the spread of the lead contamination. 460 00:24:33,450 --> 00:24:35,150 After the spire fell, 461 00:24:35,180 --> 00:24:38,080 the cloud of dust, lead, and different particle, 462 00:24:38,120 --> 00:24:41,050 push in the other direction, 463 00:24:41,080 --> 00:24:43,150 so we are a little bit more protected in this area. 464 00:24:43,180 --> 00:24:48,020 The windows of the upper level, in the path of the lead cloud, 465 00:24:48,050 --> 00:24:51,520 have been most contaminated. 466 00:24:51,550 --> 00:24:54,120 The team takes out and transports these panels 467 00:24:54,150 --> 00:24:56,350 to this special laboratory 468 00:24:56,380 --> 00:25:01,650 where they experiment with ways to remove the lead. 469 00:25:01,680 --> 00:25:05,650 First, Claudine uses a precision vacuum cleaner 470 00:25:05,680 --> 00:25:07,620 to remove the hundred years of dust 471 00:25:07,650 --> 00:25:09,880 and most of the lead powder along with it. 472 00:25:09,920 --> 00:25:16,920 So this is a good way to protect the conservator. 473 00:25:16,950 --> 00:25:21,380 You can control the action, the pressure on the glass 474 00:25:21,420 --> 00:25:23,980 and also on the painting. 475 00:25:24,020 --> 00:25:25,850 Then she uses water and cotton balls 476 00:25:25,880 --> 00:25:29,180 to remove the last of the lead. 477 00:25:29,220 --> 00:25:30,880 Of course, 478 00:25:30,920 --> 00:25:33,380 you need scientific evidence that it's working. 479 00:25:33,420 --> 00:25:36,420 Claudine uses x-ray spectroscopy 480 00:25:36,450 --> 00:25:38,720 to determine exactly how many wipes it takes 481 00:25:38,750 --> 00:25:42,680 to bring the lead down to normal levels. 482 00:25:42,720 --> 00:25:48,620 So we can identify each chemicalelement we have in the material. 483 00:25:48,650 --> 00:25:51,180 Too few wipes and the lead will remain. 484 00:25:51,220 --> 00:25:56,450 Too many wipes and restorationwill take longer than necessary. 485 00:25:56,480 --> 00:25:59,220 Okay, 486 00:25:59,250 --> 00:26:03,250 now the analysis is finished. 487 00:26:03,280 --> 00:26:06,580 After five wipes, Claudine checks to see 488 00:26:06,620 --> 00:26:09,120 if the glass is decontaminated. 489 00:26:11,950 --> 00:26:16,420 Okay, we have different chemical element... calcium, iron, 490 00:26:16,450 --> 00:26:20,150 and if we want to see the lead... 491 00:26:20,180 --> 00:26:23,080 there is no lead! 492 00:26:23,120 --> 00:26:25,380 After nine months we can see 493 00:26:25,420 --> 00:26:28,650 a good solution, a good way to clean and to preserve 494 00:26:28,680 --> 00:26:30,620 the stained glass windows from Notre Dame. 495 00:26:35,750 --> 00:26:38,520 The upper level windows were not only in the path 496 00:26:38,550 --> 00:26:39,750 of the lead cloud, 497 00:26:39,780 --> 00:26:44,620 but also closest to the inferno. 498 00:26:44,650 --> 00:26:47,680 Claudine hunts for hairline cracks 499 00:26:47,720 --> 00:26:50,550 caused by thermal shock, 500 00:26:50,580 --> 00:26:53,020 the rapid heating and cooling of the glass. 501 00:26:53,050 --> 00:26:56,680 These cracks is due to the fire. 502 00:26:56,720 --> 00:26:58,250 This is a recent cracks 503 00:26:58,280 --> 00:27:00,920 and this is typical thermal shock. 504 00:27:00,950 --> 00:27:03,380 It looks like the upper level stained glass 505 00:27:03,420 --> 00:27:06,550 will need to be painstakingly glued back together. 506 00:27:06,580 --> 00:27:11,050 But inside Notre Dame, 507 00:27:11,080 --> 00:27:12,550 the lower level stained glass appears 508 00:27:12,580 --> 00:27:13,920 to have survived unscathed. 509 00:27:13,950 --> 00:27:18,850 And here we can see we have a good stability, 510 00:27:18,880 --> 00:27:22,080 adherence of the painting, 511 00:27:22,120 --> 00:27:24,650 so there is absolutely no thermal shock, 512 00:27:24,680 --> 00:27:27,450 that's good news for us. 513 00:27:27,480 --> 00:27:30,020 On site, 514 00:27:30,050 --> 00:27:31,780 the teams of scientists 515 00:27:31,820 --> 00:27:34,280 meet the engineers and architects 516 00:27:34,320 --> 00:27:36,220 to share their findings. 517 00:27:45,280 --> 00:27:48,050 Once Claudine's team hasrestored Notre Dame's glasswork 518 00:27:48,080 --> 00:27:51,350 to its former glory, they may use 519 00:27:51,380 --> 00:27:53,520 a radical new preservation technique 520 00:27:53,550 --> 00:27:55,950 to safeguard it for future generations. 521 00:27:58,080 --> 00:28:02,220 It's being used on a huge scale here, in northern England. 522 00:28:04,480 --> 00:28:06,620 This is York Minster, 523 00:28:06,650 --> 00:28:08,550 an 800-year-old Gothic masterpiece 524 00:28:08,580 --> 00:28:13,250 and home to the largest expanse of medieval stained glass 525 00:28:13,280 --> 00:28:14,380 in the U.K., 526 00:28:14,420 --> 00:28:18,320 the Great East Window. 527 00:28:18,350 --> 00:28:20,020 It is one of the largest windows ever made 528 00:28:20,050 --> 00:28:21,320 anywhere in the medieval world. 529 00:28:21,350 --> 00:28:24,350 We've got glass from the 12th right through 530 00:28:24,380 --> 00:28:28,350 to the 18th century in quite significant quantities. 531 00:28:28,380 --> 00:28:33,050 And it is really our nationaltreasure house of stained glass. 532 00:28:34,920 --> 00:28:39,020 Engineers here are completing a $12 million project 533 00:28:39,050 --> 00:28:42,320 to protect York Minster's stained glass 534 00:28:42,350 --> 00:28:46,650 from harmful UV rays and the corrosive effects of moisture. 535 00:28:46,680 --> 00:28:48,520 In modern stained-glass conservation, 536 00:28:48,550 --> 00:28:51,420 we're really doing as much as we can to keep 537 00:28:51,450 --> 00:28:56,050 both surfaces of the historic stained glass dry and stable, 538 00:28:56,080 --> 00:28:57,920 and that's where our ventilated, 539 00:28:57,950 --> 00:29:01,650 environmental protective glazing comes into play. 540 00:29:04,050 --> 00:29:06,580 You can see that I'm almost in. 541 00:29:08,250 --> 00:29:11,580 I think it's just this last bit here. 542 00:29:11,620 --> 00:29:15,850 Matt Nickels is installing this new conservation system. 543 00:29:15,880 --> 00:29:19,650 He slots a protective clear glass exterior frame 544 00:29:19,680 --> 00:29:21,520 into the window opening. 545 00:29:21,550 --> 00:29:24,750 This goes into the original glazing groove, 546 00:29:24,780 --> 00:29:26,850 where the medieval glass would have been. 547 00:29:26,880 --> 00:29:31,220 This protective glazingprevents corrosive condensation 548 00:29:31,250 --> 00:29:34,280 from forming on the 800-year-old stained glass 549 00:29:34,320 --> 00:29:35,780 that will sit behind it. 550 00:29:35,820 --> 00:29:38,880 The gap created means that 551 00:29:38,920 --> 00:29:40,296 there's air circulation running through. 552 00:29:40,320 --> 00:29:41,950 And when you've got air circulation, 553 00:29:41,980 --> 00:29:43,950 it's regulating the temperature, 554 00:29:43,980 --> 00:29:46,520 which means that there's less moisture on the glass. 555 00:29:46,550 --> 00:29:53,380 Each frame is custom made and takes great skill to fit. 556 00:29:53,420 --> 00:29:55,320 You don't want to make it too small 557 00:29:55,350 --> 00:29:56,626 because it's going to obviously slide through. 558 00:29:56,650 --> 00:29:58,950 No two windows are gonna be the same. 559 00:29:58,980 --> 00:30:01,650 With the outer panel installed, 560 00:30:01,680 --> 00:30:04,580 they can reinstate the layer of medieval glass. 561 00:30:06,220 --> 00:30:09,880 They're actually in fairly good condition 562 00:30:09,920 --> 00:30:12,480 considering that they're early 13th century. 563 00:30:12,520 --> 00:30:13,920 There's always the worry whenever 564 00:30:13,950 --> 00:30:15,680 you're handling glass like this, 565 00:30:15,720 --> 00:30:16,726 but you just got to make sure 566 00:30:16,750 --> 00:30:18,980 that you're really, really careful. 567 00:30:20,680 --> 00:30:21,650 There's nothing quite like 568 00:30:21,680 --> 00:30:23,620 seeing it with sunlight behind it. 569 00:30:23,650 --> 00:30:26,820 When you put it up like this, it's quite magical, isn't it? 570 00:30:29,220 --> 00:30:30,780 Techniques like this 571 00:30:30,820 --> 00:30:34,680 offer a glimpse of how scientists like Claudine 572 00:30:34,720 --> 00:30:38,580 may eventually preserve Notre Dame's glass. 573 00:30:38,620 --> 00:30:41,780 This is the best way to protect stained glass windows, 574 00:30:41,820 --> 00:30:44,880 so it will be for sure an option 575 00:30:44,920 --> 00:30:47,650 to protect the windows for Notre Dame. 576 00:30:50,120 --> 00:30:52,950 Had the vaulting collapsed 577 00:30:52,980 --> 00:30:54,680 next to the windows, 578 00:30:54,720 --> 00:30:57,520 the glass could have been badly damaged. 579 00:30:57,550 --> 00:30:59,580 But luckily, the stone vaulting, 580 00:30:59,620 --> 00:31:02,820 which sits just under the timber and lead roof, 581 00:31:02,850 --> 00:31:05,920 protected the windows from the inferno above. 582 00:31:05,950 --> 00:31:08,420 When the architects of the Middle Ages 583 00:31:08,450 --> 00:31:10,250 constructed this vaulting, 584 00:31:10,280 --> 00:31:13,650 they used it to separate the timber frame of the roof 585 00:31:13,680 --> 00:31:15,350 from the rest of the cathedral. 586 00:31:15,380 --> 00:31:19,620 So the vaulting took the shock of the falling timber 587 00:31:19,650 --> 00:31:22,920 and the fire and the firefighters' water. 588 00:31:25,550 --> 00:31:27,556 The magnificent vaulting was built to be resilient, 589 00:31:27,580 --> 00:31:31,350 thanks to precise medieval craftsmanship, 590 00:31:31,380 --> 00:31:36,050 using over a thousand cubic yards of limestone. 591 00:31:39,620 --> 00:31:42,750 The arches work together to support the roof 592 00:31:42,780 --> 00:31:44,950 and stabilize the outer walls. 593 00:31:46,820 --> 00:31:49,520 But the intense heat from the fire 594 00:31:49,550 --> 00:31:50,620 and the collapsing spire 595 00:31:50,650 --> 00:31:53,750 took out 15% of the stone vaulting. 596 00:32:00,820 --> 00:32:03,180 Today, three 40-foot-wide holes 597 00:32:03,220 --> 00:32:06,320 and several smaller gaps mean the vaults could collapse 598 00:32:06,350 --> 00:32:07,920 at any moment. 599 00:32:10,320 --> 00:32:14,720 The team collects, storesand catalogues the fallen stone 600 00:32:14,750 --> 00:32:17,650 in this tent, located alongside the cathedral. 601 00:32:19,620 --> 00:32:21,850 They may be able to use some of this stone 602 00:32:21,880 --> 00:32:23,450 to reconstruct the vaults. 603 00:32:26,780 --> 00:32:30,880 But it's clear they'll also need to source new stone. 604 00:32:30,920 --> 00:32:34,850 Notre Dame is made up of many different types of limestone. 605 00:32:34,880 --> 00:32:38,980 Medieval masons chose hard limestone for the towers, 606 00:32:39,020 --> 00:32:45,620 pillars, and outer walls tobuild tall and hold up the roof. 607 00:32:45,650 --> 00:32:50,750 For the sculptures, they chose dense, fine-grained limestone, 608 00:32:50,780 --> 00:32:54,150 that can be carved with great detail. 609 00:32:54,180 --> 00:32:58,250 And for the vaults they selected softer, more porous limestone 610 00:32:58,280 --> 00:33:01,220 that's light but strong. 611 00:33:01,250 --> 00:33:02,980 If the team rebuilding the vaults 612 00:33:03,020 --> 00:33:06,450 pick a limestone that is too heavy, 613 00:33:06,480 --> 00:33:09,750 the new vaults may not last as long as they should. 614 00:33:12,050 --> 00:33:13,220 Geologist Lise Leroux 615 00:33:13,250 --> 00:33:16,580 investigates what quarry this stone came from. 616 00:33:16,620 --> 00:33:19,550 We have some blocks coming from 617 00:33:19,580 --> 00:33:23,050 the collapse of the vault for study. 618 00:33:24,650 --> 00:33:26,656 This detective work will help the team source 619 00:33:26,680 --> 00:33:30,420 replacement stone that sharesidentical mechanical properties. 620 00:33:31,250 --> 00:33:35,050 We have to verify. 621 00:33:35,080 --> 00:33:38,350 The fallen vaulting stone contains a rare micro-fossil 622 00:33:38,380 --> 00:33:41,020 called orbitolites complanatus, 623 00:33:41,050 --> 00:33:43,320 a kind of plankton. 624 00:33:43,350 --> 00:33:46,820 Fossils like this are found in just one layer of rock. 625 00:33:46,850 --> 00:33:48,850 This will make sourcing new stone 626 00:33:48,880 --> 00:33:51,650 of the same type even trickier. 627 00:33:51,680 --> 00:33:54,350 Can they use this geological fingerprint 628 00:33:54,380 --> 00:33:58,250 to discover the original source of the vaulting stone? 629 00:34:00,250 --> 00:34:03,780 To find out, Lise and fellow Notre Dame scientist 630 00:34:03,820 --> 00:34:08,620 Claudine Loisel venture deep beneath Paris. 631 00:34:08,650 --> 00:34:14,620 Hidden under the city streets is a rich source of limestone, 632 00:34:14,650 --> 00:34:18,580 a vast labyrinth of quarry tunnels. 633 00:34:18,620 --> 00:34:21,280 Lise and Claudine enter this maze 634 00:34:21,320 --> 00:34:26,750 two miles south of Notre Dame in the famous Catacombs. 635 00:34:26,780 --> 00:34:28,580 Oh! 636 00:34:48,750 --> 00:34:50,580 In the late 18th century, 637 00:34:50,620 --> 00:34:54,780 the quarries were given a different purpose 638 00:34:54,820 --> 00:34:59,350 and they housed bones from old cemeteries, 639 00:34:59,380 --> 00:35:03,950 which were inside the towns. 640 00:35:03,980 --> 00:35:06,550 Cemeteries which were closed at the end of the 18th century 641 00:35:06,580 --> 00:35:08,220 for sanitary reasons. 642 00:35:08,250 --> 00:35:12,550 Among the bones, 643 00:35:12,580 --> 00:35:15,920 Lise and Claudine find traces left by the medieval miners. 644 00:35:15,950 --> 00:35:17,856 Here, the block's been removed 645 00:35:17,880 --> 00:35:21,220 and we're left with this trace. 646 00:35:21,250 --> 00:35:23,480 They then square off the sides, 647 00:35:23,520 --> 00:35:26,450 and use it to build Notre Dame. 648 00:35:28,050 --> 00:35:32,880 And the strata height here, itdictates the height of the block 649 00:35:32,920 --> 00:35:35,680 that can be extracted. 650 00:35:35,720 --> 00:35:38,450 The blocks we see at Notre Dame have this height. 651 00:35:38,480 --> 00:35:41,920 So the quarry itself puts a constraint 652 00:35:41,950 --> 00:35:44,280 on the construction of Notre Dame. 653 00:35:44,320 --> 00:35:45,856 We have life and we have death. 654 00:35:45,880 --> 00:35:47,280 Well, yes. 655 00:35:47,320 --> 00:35:49,150 The upper level of the quarry 656 00:35:49,180 --> 00:35:51,220 holds hard limestone with 657 00:35:51,250 --> 00:35:53,580 large, well-preserved fossils. 658 00:35:53,620 --> 00:35:54,980 These fossils are 659 00:35:55,020 --> 00:35:59,820 more characteristic of the limestones 660 00:35:59,850 --> 00:36:04,350 used for the pillars, the arch in Notre Dame. 661 00:36:04,380 --> 00:36:05,450 But not for the vault. 662 00:36:05,480 --> 00:36:08,650 Lise and Claudine hope to find 663 00:36:08,680 --> 00:36:11,550 a match for the soft vaulting stone 664 00:36:11,580 --> 00:36:13,380 in the lower level of the quarry. 665 00:36:15,020 --> 00:36:18,220 Now to look if we can find 666 00:36:18,250 --> 00:36:21,480 the specific micro-fossils. 667 00:36:25,080 --> 00:36:30,180 I'm not sure, because the surface is very rough 668 00:36:30,220 --> 00:36:34,750 and it's not so clear because ofall of the state of the surface. 669 00:36:34,780 --> 00:36:38,420 The limestone here is softer, 670 00:36:38,450 --> 00:36:40,720 but Lise cannot see a match for the rare micro-fossil 671 00:36:40,750 --> 00:36:43,380 found in the Notre Dame vaulting sample. 672 00:36:47,320 --> 00:36:49,680 So, back in the lab, 673 00:36:49,720 --> 00:36:52,820 she takes a closer look at a sample of limestone 674 00:36:52,850 --> 00:36:55,150 from the lower level of the quarry. 675 00:36:56,080 --> 00:36:58,920 These little fossils... 676 00:36:58,950 --> 00:37:00,220 this one, this one, 677 00:37:00,250 --> 00:37:02,320 this one... 678 00:37:02,350 --> 00:37:06,120 are, in fact some planktonic fossils, 679 00:37:06,150 --> 00:37:08,380 which are called foraminifera. 680 00:37:08,420 --> 00:37:13,420 It's not the fossil signature she's looking for. 681 00:37:13,450 --> 00:37:16,250 But then... 682 00:37:16,280 --> 00:37:18,120 Oh! 683 00:37:19,720 --> 00:37:25,250 This one here is orbitolites complanatus. 684 00:37:25,280 --> 00:37:30,750 This little planktonic fossil is a dating fossil, 685 00:37:30,780 --> 00:37:36,520 which match with the stone coming from the vault. 686 00:37:36,550 --> 00:37:38,920 It's a stratigraphic indicator, 687 00:37:38,950 --> 00:37:42,580 characteristic from the Middle Lutetian, 688 00:37:42,620 --> 00:37:46,180 which is a geological age of deposit. 689 00:37:46,220 --> 00:37:52,250 Lise confirms the origin of the Notre Dame vaulting stone. 690 00:37:52,280 --> 00:37:54,080 It's quarried from the deepest seams 691 00:37:54,120 --> 00:37:55,780 of limestone beneath Paris. 692 00:37:55,820 --> 00:37:57,580 Conclusive. 693 00:37:57,620 --> 00:37:59,750 But what about the harder limestone, 694 00:37:59,780 --> 00:38:01,980 used by medieval masons to build 695 00:38:02,020 --> 00:38:05,350 Notre Dame'sload-bearing pillars and arches? 696 00:38:05,380 --> 00:38:08,820 Another micro fossil signature confirms the origin 697 00:38:08,850 --> 00:38:10,420 of this type as well. 698 00:38:10,450 --> 00:38:14,720 The arches are built with a hard stone... 699 00:38:14,750 --> 00:38:17,720 with a resistant stone, to support the vault. 700 00:38:17,750 --> 00:38:19,420 And the vault itself 701 00:38:19,450 --> 00:38:21,950 is logically constructed 702 00:38:21,980 --> 00:38:25,180 with a lighter, more porous stone. 703 00:38:25,220 --> 00:38:29,280 And in the quarry located in Paris, 704 00:38:29,320 --> 00:38:30,820 we have this two kind of stone. 705 00:38:30,850 --> 00:38:34,720 Medieval masons knew exactly how to exploit 706 00:38:34,750 --> 00:38:36,550 the varying mechanical properties 707 00:38:36,580 --> 00:38:37,796 of the limestone for Notre Dame; 708 00:38:37,820 --> 00:38:42,880 knowledge passed down through the generations. 709 00:38:42,920 --> 00:38:46,520 Sourcing more of the correct stone won't be easy... 710 00:38:46,550 --> 00:38:49,620 the old quarries are no longer active. 711 00:38:49,650 --> 00:38:51,020 But engineers now know 712 00:38:51,050 --> 00:38:53,120 what limestone to look for... 713 00:38:53,150 --> 00:38:57,550 this will help them find a match in quarries outside Paris. 714 00:39:01,550 --> 00:39:04,220 Stone is not the only raw material 715 00:39:04,250 --> 00:39:05,880 that will need to be replaced 716 00:39:05,920 --> 00:39:07,750 as engineers reconstruct Notre Dame. 717 00:39:07,780 --> 00:39:13,120 The timber roof was also a medieval wonder. 718 00:39:13,150 --> 00:39:18,580 It was constructed from 25,000 cubic feet of timber, 719 00:39:18,620 --> 00:39:20,780 cut from 52 acres of oak... 720 00:39:20,820 --> 00:39:24,550 that's approximately 1,300 trees. 721 00:39:24,580 --> 00:39:28,480 For this reason, it was known as "the forest." 722 00:39:28,520 --> 00:39:31,580 Every single oak in Notre Dame's forest 723 00:39:31,620 --> 00:39:34,520 was handpicked for the physical properties needed 724 00:39:34,550 --> 00:39:36,780 in the roof structure... 725 00:39:36,820 --> 00:39:38,850 from dense straight oak for pillars, 726 00:39:38,880 --> 00:39:42,420 to curved oak for support arches. 727 00:39:45,580 --> 00:39:50,050 But the fire burned every beam in the forest. 728 00:39:50,080 --> 00:39:56,280 Today, this intricate 550-ton timber jigsaw lies in ruins. 729 00:40:02,120 --> 00:40:05,920 We thought this sublime roof would be here forever. 730 00:40:05,950 --> 00:40:07,880 It was a big puzzle with beams 731 00:40:07,920 --> 00:40:09,480 from different periods, 732 00:40:09,520 --> 00:40:11,220 all the way back to the 13th century. 733 00:40:11,250 --> 00:40:12,550 And to see it suddenly 734 00:40:12,580 --> 00:40:14,780 all burned, all mixed up... 735 00:40:14,820 --> 00:40:17,850 Oh, it's very emotional. 736 00:40:17,880 --> 00:40:19,480 It's very difficult. 737 00:40:19,520 --> 00:40:23,080 Almost 60 tons of the precious roof timber 738 00:40:23,120 --> 00:40:26,880 still lie precariously on top of the vaults. 739 00:40:26,920 --> 00:40:28,680 Despite the destruction, 740 00:40:28,720 --> 00:40:31,320 every single beam holds the history of Notre Dame. 741 00:40:31,350 --> 00:40:35,380 It has deep archaeological value. 742 00:40:35,420 --> 00:40:38,020 It's vital that workers forensically record 743 00:40:38,050 --> 00:40:40,420 the position where each beam fell, 744 00:40:40,450 --> 00:40:42,480 before they remove them. 745 00:40:42,520 --> 00:40:43,780 This helps them determine 746 00:40:43,820 --> 00:40:46,050 where it originally sat in the roof structure. 747 00:40:47,920 --> 00:40:50,880 Now, these highly trained rope access technicians 748 00:40:50,920 --> 00:40:53,680 gear up to catalogue and clear 749 00:40:53,720 --> 00:40:55,480 the charred timber on the vaults. 750 00:41:01,280 --> 00:41:03,250 It's not possible to walk on the vaults, 751 00:41:03,280 --> 00:41:05,920 because the structure is very precarious. 752 00:41:05,950 --> 00:41:07,020 They needed to 753 00:41:07,050 --> 00:41:10,950 create a way to access with ropes. 754 00:41:12,650 --> 00:41:14,320 We need to wear a special mask 755 00:41:14,350 --> 00:41:17,980 because of the lead dust that we might inhale. 756 00:41:21,350 --> 00:41:24,350 We label the timbers 757 00:41:24,380 --> 00:41:25,580 and we mark them with a code 758 00:41:25,620 --> 00:41:27,920 that the architects will 759 00:41:27,950 --> 00:41:29,580 be able to identify. 760 00:41:34,150 --> 00:41:36,320 The team has their work cut out... 761 00:41:36,350 --> 00:41:38,680 there are thousands of separate pieces 762 00:41:38,720 --> 00:41:40,620 of timber to catalog. 763 00:41:40,650 --> 00:41:42,850 We are working day and night. 764 00:41:42,880 --> 00:41:44,250 We have a lot of work to do. 765 00:41:49,680 --> 00:41:51,650 They've already extracted 766 00:41:51,680 --> 00:41:54,880 around 4,000 pieces. 767 00:41:54,920 --> 00:41:58,450 Timber scientist Catherine Lavier 768 00:41:58,480 --> 00:42:01,020 begins painstaking detective work to reveal 769 00:42:01,050 --> 00:42:03,450 how Notre Dame's vast forest 770 00:42:03,480 --> 00:42:05,420 was originally assembled 771 00:42:05,450 --> 00:42:08,420 and could be rebuilt today. 772 00:42:08,450 --> 00:42:11,820 Some pieces were very well-preserved 773 00:42:11,850 --> 00:42:16,320 because as you see here, with different faces 774 00:42:16,350 --> 00:42:19,550 and another piece of wood is coming here, 775 00:42:19,580 --> 00:42:22,880 with a wooden joint here to assemble them. 776 00:42:22,920 --> 00:42:26,380 And it's rather typical from the medieval period. 777 00:42:26,420 --> 00:42:29,850 And here, 778 00:42:29,880 --> 00:42:33,080 you have a mark, 779 00:42:33,120 --> 00:42:34,650 of carpenters. 780 00:42:34,680 --> 00:42:38,720 So they are sure that this piece with this piece are together. 781 00:42:40,080 --> 00:42:41,620 It's very important for carpenters. 782 00:42:41,650 --> 00:42:43,820 They prepare the wood on the ground 783 00:42:43,850 --> 00:42:45,380 and after that, 784 00:42:45,420 --> 00:42:49,150 they go to the roof and reassemble again. 785 00:42:50,080 --> 00:42:53,350 Every carpenter has his own way to mark, 786 00:42:53,380 --> 00:42:55,120 but in general it's based on 787 00:42:55,150 --> 00:42:59,280 the Roman numbers, 788 00:42:59,320 --> 00:43:03,220 but we can find some differences between teams of carpenters. 789 00:43:05,150 --> 00:43:06,680 We were very surprised to find that 790 00:43:06,720 --> 00:43:09,650 because I thought everything will be destroyed. 791 00:43:10,350 --> 00:43:12,650 And, finally, not. 792 00:43:12,680 --> 00:43:17,550 The tree rings of the timbers conceal further clues. 793 00:43:17,580 --> 00:43:20,880 Each ring represents one year of growth; 794 00:43:20,920 --> 00:43:22,480 a time capsule of information 795 00:43:22,520 --> 00:43:27,150 about the life of the tree in that year. 796 00:43:27,180 --> 00:43:32,150 Catherine analyzes core samplesfrom Notre Dame's roof trusses. 797 00:43:32,180 --> 00:43:35,850 She measures each ring to reveal the secret story 798 00:43:35,880 --> 00:43:37,420 of some of the original oak trees 799 00:43:37,450 --> 00:43:38,750 the structure was made from. 800 00:43:38,780 --> 00:43:41,680 This screen shows the size 801 00:43:41,720 --> 00:43:44,080 of each ring I measured. 802 00:43:44,120 --> 00:43:45,580 At the start of its life, 803 00:43:45,620 --> 00:43:47,380 you see it has very, very large rings, 804 00:43:47,420 --> 00:43:52,980 which correspond to very rapid growth. 805 00:43:53,020 --> 00:43:54,296 Next, it looks like it experienced 806 00:43:54,320 --> 00:43:55,720 some more dramatic events, 807 00:43:55,750 --> 00:43:57,550 some difficult years, 808 00:43:57,580 --> 00:43:59,750 here, when the rings are very thin, 809 00:43:59,780 --> 00:44:00,996 This could be because of too much rain, 810 00:44:01,020 --> 00:44:04,350 not enough sun, and not enough nutrients. 811 00:44:04,380 --> 00:44:05,626 And then, the life of the tree continues 812 00:44:05,650 --> 00:44:09,820 until it's cut down, around its 96th year. 813 00:44:09,850 --> 00:44:12,620 Catherine is gaining new insight 814 00:44:12,650 --> 00:44:15,620 into the types of trees best suited to rebuild 815 00:44:15,650 --> 00:44:18,820 the complex forest of Notre Dame. 816 00:44:18,850 --> 00:44:21,420 This extraordinary challenge will require 817 00:44:21,450 --> 00:44:24,380 around 1,300 oak trees, 818 00:44:24,420 --> 00:44:25,780 craftspeople versed in the lost art 819 00:44:25,820 --> 00:44:29,680 of medieval carpentry practices, 820 00:44:29,720 --> 00:44:32,220 and a blueprint for possibly the most geometrically complex 821 00:44:32,250 --> 00:44:34,480 timber structures in Europe. 822 00:44:34,520 --> 00:44:37,350 The one person who can unlock 823 00:44:37,380 --> 00:44:39,820 the lost forest's geometrical secrets 824 00:44:39,850 --> 00:44:42,750 is architect Rémi Fromont. 825 00:44:42,780 --> 00:44:47,320 In 2014, Rémi spent the entire year 826 00:44:47,350 --> 00:44:50,050 mapping every inch of the timber. 827 00:44:50,080 --> 00:44:52,250 It was a magical place 828 00:44:52,280 --> 00:44:54,380 to go in there; there was a smell. 829 00:44:54,420 --> 00:44:57,420 There was a very special atmosphere of light. 830 00:44:57,450 --> 00:45:00,380 We still had the traces of tools also on the woods. 831 00:45:00,420 --> 00:45:03,650 It sometimes seemed like they only left yesterday. 832 00:45:03,680 --> 00:45:06,080 We are collecting photographs, 833 00:45:06,120 --> 00:45:09,350 3D point clouds, 834 00:45:09,380 --> 00:45:11,720 and the physical and chemical characterization 835 00:45:11,750 --> 00:45:13,220 of all the materials. 836 00:45:13,250 --> 00:45:15,980 The fire at Notre Dame 837 00:45:16,020 --> 00:45:18,520 triggers a race across France 838 00:45:18,550 --> 00:45:24,280 to 3D scan historical monuments, inside and out. 839 00:45:24,320 --> 00:45:26,920 These represent a digital insurance policy 840 00:45:26,950 --> 00:45:28,580 to preserve French heritage. 841 00:45:31,880 --> 00:45:34,580 The laser bounces off each contour in the room. 842 00:45:34,620 --> 00:45:36,320 The machine then measures 843 00:45:36,350 --> 00:45:38,120 the time it takes for the laser to return. 844 00:45:38,150 --> 00:45:40,780 Millions of measurements 845 00:45:40,820 --> 00:45:42,220 form a cloud of data 846 00:45:42,250 --> 00:45:44,180 called a "point cloud." 847 00:45:46,180 --> 00:45:50,720 In 2016, researchers used this same technology 848 00:45:50,750 --> 00:45:52,250 to create a full point cloud 849 00:45:52,280 --> 00:45:55,280 of Notre Dame's lost timber roof structure. 850 00:45:55,320 --> 00:46:01,050 This remarkable 3D scan willcombine with Rémi's 2014 survey, 851 00:46:01,080 --> 00:46:05,350 in Livio's digital twin for Notre Dame. 852 00:46:05,380 --> 00:46:06,920 What we are producing today 853 00:46:06,950 --> 00:46:10,250 will be probably the information useful 854 00:46:10,280 --> 00:46:11,520 for the next generations. 855 00:46:11,550 --> 00:46:15,250 The team now has the data they need 856 00:46:15,280 --> 00:46:19,150 to rebuild the timber roof with the exact same geometry. 857 00:46:19,180 --> 00:46:20,920 The new oak needed 858 00:46:20,950 --> 00:46:24,050 could come from forests like this. 859 00:46:24,080 --> 00:46:25,450 Almost a third of France 860 00:46:25,480 --> 00:46:28,550 is covered with forest. 861 00:46:28,580 --> 00:46:29,826 Oak is a vital strategic resource 862 00:46:29,850 --> 00:46:32,920 throughout theMiddle Ages and the Renaissance. 863 00:46:32,950 --> 00:46:36,550 Vast forests are needed tobuild cities and expand navies. 864 00:46:39,250 --> 00:46:41,880 This is the Château de Beaumesnil in Normandy. 865 00:46:41,920 --> 00:46:45,220 It's a National Historic Monument, 866 00:46:45,250 --> 00:46:46,280 built on the site of 867 00:46:46,320 --> 00:46:49,580 an 1,100-year-old castle. 868 00:46:49,620 --> 00:46:51,950 It was built in seven years. 869 00:46:51,980 --> 00:46:55,120 It's something extraordinary for just seven years' work. 870 00:46:55,150 --> 00:46:57,880 The château has seen better days. 871 00:46:57,920 --> 00:47:01,520 The curved beams that hold up the roof 872 00:47:01,550 --> 00:47:04,620 are close to collapse and must be replaced. 873 00:47:07,880 --> 00:47:11,680 The wood grain has been cut through. 874 00:47:11,720 --> 00:47:14,480 This weakens the support beam. 875 00:47:14,520 --> 00:47:19,250 And then you see that the beam is completely eaten away. 876 00:47:19,280 --> 00:47:23,320 The wood is degraded, eaten by the fungus. 877 00:47:25,950 --> 00:47:27,680 The restoration work here 878 00:47:27,720 --> 00:47:30,650 requires much of the same skill and knowledge 879 00:47:30,680 --> 00:47:33,920 it will take to rebuild Notre Dame's lost forest. 880 00:47:35,980 --> 00:47:38,620 The timber has been chosen so the curve of the grain 881 00:47:38,650 --> 00:47:42,180 perfectly matches the curve of the new beam. 882 00:47:42,220 --> 00:47:43,726 If you get a straight tree, 883 00:47:43,750 --> 00:47:47,180 which has a straight grain, and... 884 00:47:47,220 --> 00:47:53,520 if you cut a curved piece, piece of wood inside of this, 885 00:47:53,550 --> 00:47:56,920 so here is the fiber, so it can break, right there. 886 00:47:56,950 --> 00:48:01,520 But if you take the tree that's curved, 887 00:48:01,550 --> 00:48:04,650 the fiber is like this. 888 00:48:04,680 --> 00:48:06,180 So it cannot break. 889 00:48:06,220 --> 00:48:09,420 You keep all of thestructural strength of the tree. 890 00:48:13,620 --> 00:48:15,180 The carpenters use 891 00:48:15,220 --> 00:48:17,650 an original beam as a template 892 00:48:17,680 --> 00:48:19,980 to mark out the new beam on the oak. 893 00:48:23,420 --> 00:48:25,090 The carpenters who built Notre Dame 894 00:48:25,120 --> 00:48:26,656 would be familiar with the tools this team uses 895 00:48:26,680 --> 00:48:28,150 to hew the raw timber. 896 00:48:31,580 --> 00:48:34,380 So after you split most of the wood, 897 00:48:34,420 --> 00:48:37,780 you use a broad-axe. 898 00:48:37,820 --> 00:48:39,420 They have a single bevel, 899 00:48:39,450 --> 00:48:44,320 long cutting edge, and the handle is offset. 900 00:48:44,350 --> 00:48:46,320 So... 901 00:48:46,350 --> 00:48:48,950 if you're working, 902 00:48:48,980 --> 00:48:51,980 as you go down, your hand here, 903 00:48:52,020 --> 00:48:55,250 you see I'm not hitting this sharp edge. 904 00:48:58,720 --> 00:49:00,350 For skilled carpenters, 905 00:49:00,380 --> 00:49:02,096 cutting Notre Dame's roof timbers with axes, 906 00:49:02,120 --> 00:49:04,380 compared to a modern sawmill, 907 00:49:04,420 --> 00:49:07,220 will take roughly twice the time; 908 00:49:07,250 --> 00:49:09,520 possibly too long. 909 00:49:09,550 --> 00:49:11,950 This curved oak will be 910 00:49:11,980 --> 00:49:14,180 one of ten the team needs to install 911 00:49:14,220 --> 00:49:17,580 as part of the château roof restoration. 912 00:49:17,620 --> 00:49:21,750 It sits alongside this 400-year-old original beam. 913 00:49:21,780 --> 00:49:23,520 This one was cut 914 00:49:23,550 --> 00:49:27,850 probably 1635, '37, 915 00:49:27,880 --> 00:49:30,080 and then this one 2020. 916 00:49:30,120 --> 00:49:35,420 I hope our ancestors are happy with this. 917 00:49:35,450 --> 00:49:37,880 Just like the Notre Dame beams, 918 00:49:37,920 --> 00:49:40,320 the Château's original beam holds 919 00:49:40,350 --> 00:49:43,680 messages from the old carpenters. 920 00:49:43,720 --> 00:49:47,380 It's extraordinary to find all these marks. 921 00:49:47,420 --> 00:49:49,050 It's very old and at the same time, 922 00:49:49,080 --> 00:49:51,320 it looks like it was done yesterday. 923 00:49:51,350 --> 00:49:53,620 French craftspeople 924 00:49:53,650 --> 00:49:55,520 have the oak, 925 00:49:55,550 --> 00:49:59,750 they have the skills, and they have the plans required 926 00:49:59,780 --> 00:50:03,580 to reconstruct Notre Dame's vast forest of roof timbers. 927 00:50:03,620 --> 00:50:07,980 It's over a year since the fire ravaged Notre Dame cathedral, 928 00:50:08,020 --> 00:50:11,320 and the investigators have not pinpointed 929 00:50:11,350 --> 00:50:12,580 the cause of the blaze. 930 00:50:12,620 --> 00:50:16,720 Immense challenges and uncertainties still lie ahead. 931 00:50:16,750 --> 00:50:21,520 The building is not yet out of danger. 932 00:50:21,550 --> 00:50:23,120 Over the next 12 months, 933 00:50:23,150 --> 00:50:25,720 engineers must remove the melted scaffolding 934 00:50:25,750 --> 00:50:29,180 and seal the cathedral roof to make it watertight, 935 00:50:29,220 --> 00:50:32,480 then stabilize the weakened vaulting. 936 00:50:32,520 --> 00:50:34,880 It's a monumental task. 937 00:50:34,920 --> 00:50:37,080 And rebuilding the entire cathedral 938 00:50:37,120 --> 00:50:39,080 could take much longer than 939 00:50:39,120 --> 00:50:42,720 the five years decreed by President Macron. 940 00:50:42,750 --> 00:50:45,050 Faced with such a drama, 941 00:50:45,080 --> 00:50:46,450 thankfully there's hope. 942 00:50:48,420 --> 00:50:51,250 We need faith for this project. 943 00:50:51,280 --> 00:50:54,450 It's this building itself that generates this faith... 944 00:50:54,480 --> 00:50:58,480 even for atheists... And that's something magical. 945 00:51:00,020 --> 00:51:02,180 Architects around the world 946 00:51:02,220 --> 00:51:03,850 have unleashed their imaginations 947 00:51:03,880 --> 00:51:08,680 to submit grand plans for what the new spire above Notre Dame 948 00:51:08,720 --> 00:51:09,950 could look like... 949 00:51:09,980 --> 00:51:14,280 from mirrored roofs with kaleidoscopic pinnacles, 950 00:51:14,320 --> 00:51:17,780 and vast solar panels powering nearby buildings, 951 00:51:17,820 --> 00:51:23,620 to stained glass edifices thatwill light up the Paris skyline. 952 00:51:23,650 --> 00:51:25,520 However Notre Dame is rebuilt, 953 00:51:25,550 --> 00:51:29,650 the unique collaboration of architects and scientists 954 00:51:29,680 --> 00:51:30,980 is rewriting how we understand 955 00:51:31,020 --> 00:51:34,880 the very fabric of this magnificent cathedral. 956 00:51:34,920 --> 00:51:36,780 I think the fire in some ways 957 00:51:36,820 --> 00:51:38,650 helped remind a lot of people 958 00:51:38,680 --> 00:51:40,980 what an important part of our sort of shared history 959 00:51:41,020 --> 00:51:42,980 and shared culture this is. 960 00:51:43,020 --> 00:51:46,320 Soon, a complete digital twin of Notre Dame 961 00:51:46,350 --> 00:51:49,480 should allow future generations of craftspeople 962 00:51:49,520 --> 00:51:54,850 to maintain, protect, and faithfully rebuild Notre Dame, 963 00:51:54,880 --> 00:51:58,450 preserving this world treasure for all time. 964 00:51:58,480 --> 00:52:00,580 I have only one obsession... 965 00:52:00,620 --> 00:52:02,680 save the cathedral, resurrect it, 966 00:52:02,720 --> 00:52:04,420 and reopen it to the public. 967 00:53:03,650 --> 00:53:05,750 To order this program on DVD, 968 00:53:05,780 --> 00:53:10,850 visit ShopPBS or call 1-800-PLAY-PBS. 969 00:53:10,880 --> 00:53:13,820 Episodes of "NOVA" are available with Passport. 970 00:53:13,850 --> 00:53:17,950 "NOVA" is also available on Amazon Prime Video. 74335