0:00:08.460,0:00:11.310 It is one of the most important announcement in the past decades. [br] 0:00:14.610,0:00:19.980 It confirms essentially most of what has been done in physics. 0:00:20.150,0:00:25.320 This year prizes is about something very small that makes all the difference.[br] 0:00:25.500,0:00:27.730 I am rather surprised it has happened in my lifetime. 0:00:32.820,0:00:39.060 At CERN's foundation in 1954, the world of particle physics was a very different one.[br] 0:00:39.710,0:00:44.210 Scientists were trying to come to grips with the plenty of particles observed in Nature.[br] 0:00:44.511,0:00:51.061 They lacked of an overall framework to explain the basic constitution of matter and the forces that act upon them. 0:00:51.761,0:00:55.411 This framework would later become known as the Standard Model. 0:00:56.771,0:01:02.500 By the end of the decade CERN physicists were already providing insight into the weak interaction, [br] 0:01:02.500,0:01:05.360 a force without which the Sun would not shine. 0:01:07.790,0:01:14.360 The 1960s we saw the birth of electro-weak theory, which unifies the weak and electromagnetic forces.[br] 0:01:15.760,0:01:21.210 A vital part of this is a mechanism that accounts for the vastly different ranges of theses forces, 0:01:21.210,0:01:23.320 as well as for particle masses. 0:01:23.721,0:01:28.811 These were beautiful concepts but they needed experimental evidences to back them up.[br] 0:01:30.300,0:01:36.760 Particle physicists embarked on a global search for the carriers of the weak forces, W and Z bosons,[br] 0:01:36.760,0:01:39.800 whose existence would prove the theorists were right. 0:01:42.510,0:01:47.440 A major breakthrough came in 1973 with the discovery at the PS. 0:01:49.490,0:01:56.760 The Gargamelle experiment identified weak neutron currents, tell tale science of the existence of Z bosons.[br] 0:01:57.501,0:02:02.241 This ground break result brought the first evidence for the electro-weak theory. 0:02:03.200,0:02:09.780 Our physicist were on the right track, but direct detection of weak bosons would take another decade. 0:02:11.300,0:02:15.500 In 1976, CERN brought the SPS on stream. 0:02:16.260,0:02:19.990 Larger and more powerful than CERN's previous accelerators, 0:02:19.990,0:02:23.940 the SPS would go on to collide protons with anti-protons. 0:02:24.760,0:02:29.880 By 1983 SPS experiments had seen W and Z bosons. 0:02:31.340,0:02:37.750 Their long way to discovery led to the Nobel Prize for CERN's Carlo Rubia and Simon Van der Meer. 0:02:37.920,0:02:43.940 "This discovery of the W and Z is not the end, it is the beginning." [br] 0:02:43.940,0:02:51.480 The next step begun when LEP, the 27 km large electron-positron collider, was switched on, in 1989. 0:02:51.740,0:02:55.260 It was designed to study weak bosons in detail. 0:03:00.780,0:03:04.760 The LEP collaborations soon had their first major result. 0:03:04.760,0:03:09.220 By measuring the decays of Z bosons, they found that Nature has three, 0:03:09.220,0:03:12.540 and only three, families of matter particles. 0:03:12.560,0:03:16.560 Everything we see in the Universe is made of the lightest family. 0:03:19.220,0:03:25.580 During its 11 years of operation, LEP placed electro-weak theory on solid experimental ground. 0:03:25.730,0:03:31.780 The Standard Model was almost complete, but what accounted for the mass of particles? 0:03:31.860,0:03:34.650 There was one last missing piece of the puzzle to 0:03:34.661,0:03:39.730 uncover: the physical manifestation of the Brout-Englert-Higgs mechanism. 0:03:39.730,0:03:42.730 A particle called the Higgs boson. 0:03:43.730,0:03:48.400 Its discovery was in sight. With the construction of Large Hadron Collider, 0:03:48.400,0:03:53.220 CERN would take its first steps into a new century of discovery . 0:03:56.490,0:03:58.820 "Today is a special day." 0:03:59.240,0:04:06.810 On the 4th of July 2012, the CMS and Atlas collaborations announced the discovery of Higgs bosons. 0:04:07.510,0:04:11.280 "Theses results are the outcome of the ingenui division[br] 0:04:11.281,0:04:17.141 and painstaking work of our community from accelerator to detector instrumentation, computing and physics." 0:04:17.730,0:04:25.760 "We have observed the new bosons with mass of 125.3 plus minus 0.6 GeV, at 4.97 deviations."[br] 0:04:30.981,0:04:35.991 It was the final evidence the world has been waiting for, heating headlines around the world, 0:04:36.000,0:04:43.200 winning the Noble Prize for Peter Higgs and François Englert and cementing CERN's pivotal role in the development of the Standard Model. 0:04:49.730,0:04:55.910 The Higgs boson completes the Standard Model, but many questions about our Universe remain unanswered, 0:04:55.910,0:05:02.780 mysteries that will captivate future generations of scientists and lead them to untold discoveries.