CERNHighlights of the year at CERN, with numerous physics results, new technologies and much more.
Whether you’re passionate about science or simply curious, young or not so young, interested in technology or in international cooperation, 2018 had some wonderful surprises in store for you at CERN.
From new studies on the Higgs boson to the start-up of antimatter experiments, the inauguration of the Esplanade des Particules and innovative applications for medicine and society, CERN shone in many fields.
This video will take you on a trip through the highlights of 2018 at CERN.
For more information about these and other stories from this year, please visit cern.ch/go/2018-public-updates-en.
CERN highlights from 2018CERN2018-12-21 | Highlights of the year at CERN, with numerous physics results, new technologies and much more.
Whether you’re passionate about science or simply curious, young or not so young, interested in technology or in international cooperation, 2018 had some wonderful surprises in store for you at CERN.
From new studies on the Higgs boson to the start-up of antimatter experiments, the inauguration of the Esplanade des Particules and innovative applications for medicine and society, CERN shone in many fields.
This video will take you on a trip through the highlights of 2018 at CERN.
For more information about these and other stories from this year, please visit cern.ch/go/2018-public-updates-en.
If you are fascinated by the challenges and impact of technology for health, listen to the CERN Sparks! Podcast now to learn more about the theme and join us for the live stream on 17 November 2022.
Find out more about this year's speakers: sparks.cern/talksTeaser | Join us for the second edition of Sparks! on Future Technology for HealthCERN2022-11-16 | The Sparks! 2022 Talks will be streamed live online on Thursday 17 November 2022 from 16:00 CET. The Sparks! Talks will consist of a series of short talks and debates about the current breakthroughs in the field of technology for health. The talks will be given by a selection of our invited participants to the Sparks! Forum which will take place at CERN the next day.
If you are fascinated by the challenges and impact of technology for health, listen to the CERN Sparks! Podcast now to learn more about the theme and join us for the live stream on 17 November 2022.
Find out more about this year's speakers: sparks.cern/talksA leaky bottle & the ATLAS particle detector?CERN2022-11-15 | What is the link between a leaky bottle... and the optical fibres in the @ATLAS Experiment particle detector? ⛲️⚙️
In this #CERNSolvayEducation video, we look at a jet of water and flexible fibres in the Tile Calorimeter of the ATLAS detector.
They both can guide light through multiple reflections and change its colour from blue to green! For our leaky bottle, the light comes from a laser pointer, but in ATLAS, the light comes from high-energy particles hitting scintillating tiles.
👉More on scintillation: youtu.be/so8Hk27l_JY 👉More on light guiding and colour shifting: https://cern.ch/leaky-bottle
#TeachingTuesday #CERNScienceGateway #STEM #Education @Solvay GroupHow to create photons you can seeCERN2022-11-08 | Scintillating detectors at CERN rely on luminescence, sometimes known as "cold light", to detect high-energy particles. In this first physics explainer video of the #CERNSolvayEducation Programme, we discuss how light is created, how incandescence ("warm light") differs from luminescence ("cold light") and how we use the latter in scintillation detectors. This course video is designed for teenagers who want to go beyond high-school physics and get an introduction to CERN #physics and #technology. Find the interactive version of this video over on our website, https://cern.ch/photons, and the rest of the videos in this series in our playlist youtube.com/playlist?list=PLAk-9e5KQYEpoWZHUQJQHE0bNSJX9bm_O.
CERN and @Solvay Group launch #STEMeducation programme for high school students with #CERNSolvayEducation, as part of the education portfolio of #CERNScienceGateway, CERN's new flagship project for science education and outreach. #TeachingTuesday
____________________________________________________ Research articles and presentations to go further:
University-level introduction to luminescence (in French): Valeur, Bernard. "Lumière et luminescence." 2e édition, Bibliothèque Scientifique, Belin, 2017. belin-editeur.com/lumiere-et-luminescence-2e-edition Valeur, Bernard, and Mario N. Berberan-Santos. "A brief history of fluorescence and phosphorescence before the emergence of quantum theory." Journal of Chemical Education 88.6 (2011): 731-738. pubs.acs.org/doi/10.1021/ed100182h d’Ambrosio, Carmelo. "A short overview on scintillators." CERN, 13 April 2005. https://ph-dep-dt2.web.cern.ch/CAT2005_3a.pdf The Crystal Clear Collaboration conducts research on scintillators and detectors for the LHC and future accelerators https://crystalclearcollaboration.web.cern.ch/ https://home.cern/news/news/experiments/crystal-clear-30-yearsMuon Collider: A great potential for high-energy physics!CERN2022-11-04 | The concept of using colliding beams of oppositely charged muons dates back to the late 1960s, with F.F. Tikhonin, G.I. Budker and A.N. Skrinski. The interest of the muon collider has been recently revived as the latter promises a sustainable path towards very high energy and the first International Muon Collider Collaboration workshop took place at CERN from October 11 to October 14, 2022 (see https://muoncollider.web.cern.ch/welcome-page-muon-collider-website and https://indico.cern.ch/event/1175126/ ). High-energy lepton colliders combine cutting edge discovery potential with precision measurements. Because leptons are point-like particles, in contrast to protons, they can achieve comparable physics at lower centre-of-mass energies. The relative physics reach depends on the channels considered but a 10 TeV lepton collider would be comparable to a 100 TeV proton-proton collider. The large muon mass suppresses synchrotron radiation and enables the use of circular accelerator and collider rings. However, the short muon lifetime limits the number of turns in these rings and all the challenges of such a collider are linked to the fact that muons are decaying particles. Despite these many challenges, no showstopper has been identified yet and a muon collider is a very promising option for the future of the high-energy physics.
Contributors
Director: Fichet, Jacques Herve Co-Producer: Metral, EliasA new facility for HL-LHC is born at Point 1CERN2022-11-04 | The final civil engineering works at Point 1 of the High-Luminosity LHC have been completed. The new facility, along with its sibling at Point 5, will house the cutting-edge equipment needed to sustain the ten-fold increase in integrated luminosity promised by the HL-LHC project. #HiLumiLHC
Camera Operator: Struik, Michael Editor: Cavin, Alexandre JoshuahAlignment of the VELO subdetector of the LHCb experimentCERN2022-11-01 | The @LHCb Experiment state-of-the-art VErtex LOcator (#VELO) aligned more closely with the LHC beam than ever before, a process known at LHCb as “VELO closing”. The new VELO’s job is to completely reconstruct the trajectories of particle collisions with extreme precision, pick out the important interactions involving B mesons, and analyse them. The VELO closing marks an important milestone in LHCb data-taking during #LHCRun3.
Find out more: https://home.cern/news/news/experiments/lhcbs-new-velo-springs-action
Director: Fichet, Jacques HerveA balloon hovercraft and the CMS detector?CERN2022-10-05 | What is the link between a particle detector and a balloon hovercraft?
On this #TeachersDay, we take a look at how the power of air is used to move around 11 massive particle detector slices in the @CMS Experiment.
Stay tuned for this #CERNSolvayEducation video series, part of the #CERNScienceGateway #education portfolio with @Solvay Group.
Find out more: https://solvay-education-programme.web.cern.ch/balloon-hovercraft-cms-particle-detectorCERN Firefighters #EuropeanDayOfLanguages2022CERN2022-09-26 | One of CERN’s core values is diversity, notably of cultures and languages which adds to the richness of collaboration in all corners of the Organization. As we celebrate #EuropeanDayOfLanguages2022, this video illustrates this diversity in the CERN Fire and Rescue Service (FRS).Fridge magnets & the LHC?CERN2022-09-20 | The Large Hadron Collider #LHC at CERN is the world’s largest and most powerful particle accelerator.
Can you guess what’s the connection between magnets in the LHC… and fridge magnets in your kitchen? 😉
Watch this video to understand how different magnets perform different functions, and why we need various types of magnetic fields in the LHC: https://solvay-education-programme.web.cern.ch/
#TeachingTuesday #CERNSolvayEducation #CERNScienceGateway @Solvay Group
Contributors: Maximilien Brice, Julien Marius Ordan, Lea Halser, Harriet Kim Jarlett, Francois Briard, Ana Godinho, Chetna KrishnaEntdecken Sie CERN in Virtuell (LHC und Grid-Computing)CERN2022-09-15 | #CERN #LHC #VR #germany
Entdecken Sie CERN in Virtuell: die Herausforderung, Petabytes an Daten mit mehr als einer halben Million Prozessorkerne zu verarbeiten.
Video Contributors: Maximilien Brice, Julien Marius Ordan, Lea Halser, Francois Briard, Ana Godinho, Harriet Kim Jarlett, Daniele Dal Santo, Lea Halser, Chetna KrishnaIn diretta dal CERN in italianoCERN2022-07-05 | Welcome to the Italian version of the #LHCrun3 live.
Il 5 luglio, il CERN comincerà a fornire agli esperimenti di LHC collisioni tra protoni all’energia record di 13.6 trilioni di elettron volt (13.6 TeV). Queste prime collisioni ad alta energia con fasci di protoni detti in gergo “stabili” segnano l’inizio del cosiddetto RUN3 di LHC, ovvero la terza stagione di presa dati da quando il Collider ha cominciato a funzionare. Seguite in diretta gli scienziati del CERN il 5 luglio alle 16:00 CEST (GMT +2) per celebrare questo record di energia e l’inizio della nuova stagione di presa dati per la fisica.Live from CERN: Join us for the first collisions for physics at 13.6 TeV!CERN2022-07-05 | In April 2022, CERN restarted the Large Hadron Collider (LHC) after more than three years of maintenance and upgrades, known as Long Shutdown 2 (LS2).
Since then, experts have worked around the clock to progressively recommission the machine and safely ramp up the energy and intensity of the beams before delivering collisions to the LHC experiments at the world-record energy of 13.6 trillion electronvolts (13.6 TeV). These high-energy collisions with stable beams will mark the beginning of the third run of the LHC, called Run 3.
Join CERN scientists live on 5 July, 16.00 CEST to celebrate this world record and the upcoming physics season.En direct du CERN: rejoignez-nous pour les premières collisions de physique à 13,6 TeV !CERN2022-07-05 | Welcome to the French version of the #LHCrun3 live.
Le 5 juillet, le CERN fournira des collisions à une énergie record de 13,6 milliers de milliards d'électronvolts (13,6 TeV) pour les expériences du LHC. Ces collisions à haute-énergie avec des faisceaux stables marqueront le début de la troisième période d'exploitation du LHC, le Run 3. Rejoignez les scientifiques du CERN lors d'un direct le 5 juillet à 16h00 CEST pour célébrer ce record mondial et le début du recueil de données.Live vom CERN: Die erste Datennahme bei der Rekordenergie von 13,6 TeV!CERN2022-07-05 | Welcome to the German version of the #LHCrun3 live.
Am 5. Juli wird das CERN den LHC-Experimenten Teilchenkollisionen mit einer Rekordenergie von 13,6 Billionen Elektronenvolt (13,6 TeV) liefern. Mit diesen hochenergetischen Kollisionen stabiler Teilchenstrahlen beginnt die dritte Messkampagne des LHC, der sogenannte „RUN 3“. Seien Sie am 5. Juli um 16.00 Uhr MESZ live dabei, wenn die WissenschaftlerInnen des CERN diesen Weltrekord und die beginnende Datennahme feiern.En directo desde el CERN: únete a nosotros para celebrar las primeras colisiones a 13.6 TeV!CERN2022-07-05 | Welcome to the Spanish version of the #LHCrun3 live.
El 5 de julio, los experimentos del gran colisionador de hadrones (LHC) del CERN recibirán las primeras colisiones de partículas a una energía récord de 13.6 teraelectronvoltios (13.6 TeV). Estas colisiones a altas energías marcan oficialmente el inicio del “Run 3”, la tercera etapa de funcionamiento del LHC. Sigue la emisión en directo el día 5 de Julio, a las 16h (Hora de verano de Europa Central) y celebra con los científicos del CERN esta nueva temporada de física que comienza batiendo récords.Teaser in diretta dal CERN in italianoCERN2022-07-04 | ITALIAN VERSION - Teaser of the live happening from CERN on the 5 July to celebrate the first collisions for physics at 13.6 TeV!
Il 5 luglio, il CERN comincerà a fornire agli esperimenti di LHC collisioni tra protoni all’energia record di 13.6 trilioni di elettronvolt (13,6 TeV). Queste prime collisioni ad alta energia con fasci di protoni detti in gergo “stabili” segnano l’inizio del cosiddetto RUN3 di LHC, ovvero la terza stagione di presa dati da quando il Collider ha cominciato a funzionare. Seguite in diretta gli scienziati del CERN il 5 luglio alle 16:00 CEST (GMT +2) per celebrare questo record di energia e l’inizio della nuova stagione di presa dati per la fisica.Teaser live from CERN: Join us for the first collisions for physics at 13.6 TeV!CERN2022-07-04 | Teaser of the live happening from CERN on the 5 July to celebrate the first collisions for physics at 13.6 TeV!Live vom CERN: Die erste Datennahme bei der Rekordenergie von 13,6 TeV!CERN2022-07-04 | GERMAN VERSION - Teaser of the live happening from CERN on the 5 July to celebrate the first collisions for physics at 13.6 TeV!
Am 5. Juli wird das CERN den LHC-Experimenten Teilchenkollisionen mit einer Rekordenergie von 13,6 Billionen Elektronenvolt (13,6 TeV) liefern. Mit diesen hochenergetischen Kollisionen stabiler Teilchenstrahlen beginnt die dritte Messkampagne des LHC, der sogenannte „RUN 3“. Seien Sie am 5. Juli um 16.00 Uhr MESZ live dabei, wenn die WissenschaftlerInnen des CERN diesen Weltrekord und die beginnende Datennahme feiern.Teaser en directo desde el CERN: únete a nosotros para celebrar las primeras colisiones a 13.6 TeV!CERN2022-07-04 | SPANISH VERSION - Teaser of the live happening from CERN on the 5 July to celebrate the first collisions for physics at 13.6 TeV!
El 5 de julio, los experimentos del gran colisionador de hadrones (LHC) del CERN recibirán las primeras colisiones de partículas a una energía récord de 13.6 teraelectronvoltios (13.6 TeV). Estas colisiones a altas energías marcan oficialmente el inicio del “Run 3”, la tercera etapa de funcionamiento del LHC. Sigue la emisión en directo el día 5 de Julio, a las 16h (Hora de verano de Europa Central) y celebra con los científicos del CERN esta nueva temporada de física que comienza batiendo récords.Teaser en direct du CERN: rejoignez-nous pour les premières collisions de physique à 13,6 TeV !CERN2022-07-04 | FRENCH VERSION - Teaser of the live happening from CERN on the 5 July to celebrate the first collisions for physics at 13.6 TeV!
Le 5 juillet, le CERN fournira des collisions à une énergie record de 13,6 milliers de milliards d'électronvolts (13,6 TeV) pour les expériences du LHC. Ces collisions à haute-énergie avec des faisceaux stables marqueront le début de la troisième période d'exploitation du LHC, le Run 3. Rejoignez les scientifiques du CERN lors d'un direct le 5 juillet à 16h00 CEST pour célébrer ce record mondial et le début du recueil de données.LHC beams: from injections to stable beamsCERN2022-06-29 | Delphine Jacquet and Georges Trad, both Engineers-in-Charge of the LHC, explain how the LHC beams work from the injections of protons to stable beams.Delphine explains the tasks behind #LHCRun3CERN2022-06-24 | After #restartingLHC in April 2022, CERN's engineers have been hard at work in preparation for #LHCRun3 and collisions at the highest-ever energy of 13.6 TeV. Curious about what they have been doing? Delphine Jacquet, one of the Engineers in Charge (EiC) at the #LHC, explains.The new VELO detector of LHCbCERN2022-06-23 | The installation of the new VErtex LOcator (VELO) in the LHCb experiment
Director: Traczyk, Piotr Editor: Pym, James Michael Camera Operators: Ordan, Julien Marius; Traczyk, PiotrLHC Run 3 live: TeaserCERN2022-06-21 | #LHCRun3 is about to start!
Since #restartingLHC in April 2022, CERN experts have worked around the clock to progressively recommission the Large Hadron Collider and safely ramp up the energy and intensity of the beams, before delivering collisions to the LHC experiments at the world-record energy of 13.6 TeV.
Join us live on 5 July, 16.00 CEST to celebrate the beginning of the third run of the LHC, called Run 3.CERNs East Area Makeover : 2 years in 2 minutesCERN2022-05-20 | The East Area may have been inaugurated more than 50 years ago, yet it is still as modern as can be: just as it did in the 1960s, the smaller of CERN’s two main experimental facilities for fixed-target physics and test beams, now packed with cutting-edge equipment after a four-year-long makeover, embodies the future of physics in terms of research, technology and the field’s relationship with its environment.
The timelapse in this video covers the last two years of the renovation project and highlights the complexity of the hall.
Creator: Brice, Maximilien - CERN
Read more: https://home.cern/news/news/accelerators/ls2-report-getting-ready-future-physics-east-areaPreparing the Magnets of the FutureCERN2022-05-09 | Superconductors for a more powerful LHC #HiLumiLHC 🧲💪
The future high-energy accelerators will need magnetic fields never reached before, as high as 20 Tesla and above. To achieve this level of performance, a new technological leap is being prepared at #CERN with high temperature superconductors.
Watch here to find out about our recently developed cabling machine for making superconducting cables that will be used for the electrical transmission system, the so-called superconducting link. It will be used for the LHC for powering the high luminosity #magnets.
Learn more about #superconductivity: https://home.cern/science/engineering/superconductivity
Video by Julien Ordan Cover by Chetna KrishnaCMS Experiment Ready for #LHCRun3CERN2022-04-27 | Find out some of the upgrades done at @CMS Experiment that is now ready for #LHCRun3LHC sets New World Record of Energy at 6.8 TeV!CERN2022-04-25 | Today the two #LHC pilot beams of protons were accelerated, for the first time, to the record energy of 6.8 TeV per beam. After #restartingLHC, this operation is part of the activities to recommission the machine in preparation of #LHCRun3, planned for the summer aiming for 13.6 TeV this year.
Read more about the restart of the Large Hadron Collider: https://home.cern/news/news/accelerators/large-hadron-collider-restartsLHC restartsCERN2022-04-22 | The world’s largest and most powerful particle accelerator has restarted after a break of more than three years for maintenance, consolidation, and upgrade work. Today, 22 April, at 12.16 PM, two beams of protons circulated in opposite directions around the Large Hadron Collider’s 27-kilometre ring at their injection energy of 450 billion electronvolts (450 GeV).We are Live from the LHCb ExperimentCERN2022-04-13 | We are LIVE from the #LHCb experiment at #CERN! 🎥
Join us now to find out more about the LHCb Experiment at CERN and recent upgrades of the detector. #restartingLHCLIVE from the LHCb Experiment exploring matter-antimatter differencesCERN2022-04-13 | Find out more about@LHCb Experiment and what it explores!The Large Hadron Collider Beauty Experiment 360°CERN2022-04-13 | #Didyouknow that the LHCb Experiment at CERN looks into the differences between matter and #antimatter by studying a type of particle called the "beauty quark" or "b quark"?
Enjoy this 360-degree view of the LHCb cavern, situated at point 8 on the #LHC tunnel close to Ferney-Voltaire, France, just over the border from Geneva.
We will be LIVE today at 4 pm CEST from the LHCb experiment. Stay tuned and bring your questions! ❇️
Music: Over the Bridge by Epidemic Sound[TEASER] Well be going Live from the LHCb ExperimentCERN2022-04-12 | We will be LIVE tomorrow from the #LHCb experiment at #CERN! 🎥
Join us tomorrow at 4 pm CEST to find out more about the LHCb Experiment at CERN and recent upgrades of the detector. #restartingLHCThe closing of the CMS experimentCERN2022-03-22 | The CMS detector has been set in closed configuration at the end of February in preparation for #restartingLHC.
Curious to know how the CMS Experiment moves disks weighing 1400 tonnes, in order to bring them back to its compact configuration? Here’s a tip: it involves steel cables and high-pressure air at 25-35 bar.
Watch this video for more 🧐How to cool down the LHC? A simple recipe...CERN2022-03-14 | #DidYouKnow that the Large Hadron Collider is 0.8 °C colder than outer space? The superconducting magnets that power the particle accelerator operate at -271.3 °C. But how do we achieve such a temperature? Here is a simple recipe on how to cool down the #LHC.The AIDAinnova projectCERN2022-02-25 | The AIDAinnova project aims to provide state-of-the-art upgrades to research infrastructures, such as test beams, in order to unfold the scientific potential of detector technologies. The project involves three RTOs (Research and Technology Organisations) and 34 academic institutions in 15 countries, in co-innovation for common detector projects, strengthening the competence and competitiveness of the industrial partners in other markets. This includes exploration applications of novel technologies, increase of the efficiency and quality of the beam test and irradiation facilities, thus rendering European Industry ready for large series production of HEP detectors.
This project has received funding from the European Union’s Horizon 2020 Research and Innovation programme under Grant Agreement No 101004761.
Find out more here : https://aidainnova.web.cern.ch
#CERNimpact #AIDAinnovaProjectEUCelebrating Women and Girls in ScienceCERN2022-02-11 | To celebrate the #UnitedNations’ International Day of Women and Girls in Science, watch Sarah Porteboeuf-Houssais, Manya Agarwal and Sabrina Schadegg tell their own story in #STEM!
Which female scientist inspires you? Share their names and who they are! 👇
Music credit: Reach For The Sky - Simon Jomphe Lepine
Video Contributors: Producer: Chetna Krishna Editor: Cristina AgrigoroaeWhat is CERN’s Beamline for Schools competition?CERN2022-01-24 | Are you a high-school student passionate for physics, or do you know someone who fits the profile?
On the occasion of UNESCO’s #EducationDay, CERN invites teams of high-school students with a team coach to apply to our annual Beamline for Schools competition. The two teams that prepare the best proposals will win a trip to a particle accelerator facility at CERN to perform their experiments at a fully-equipped beamline.
Find out more in this video about the #BL4S competition supported by the CERN and Society Foundation. Apply now: http://beamlineforschools.cern/home
Producer: Feza Tankut
Editor: Chetna KrishnaCERN highlights 2021CERN2022-01-05 | Relive 2021 at CERN with this video showing the major milestones of the year. Enjoy!Sparks! | Vivienne Ming | AI as a tool for discoveryCERN2021-12-20 | Talk recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Vivienne Ming describes herself as a theoretical neuroscientist, an inventor and an author. She has experience in applying machine learning to develop neurotechnologies for medical conditions. She has also led many studies linked to how people learn and create, and seeks to explore the link between AI, human learning and creativity. Vivienne discusses how AI can be used as a tool for discovery and learning.Sparks! | Anima Anandkumar | AI: Most powerful force of our timeCERN2021-12-20 | Talk recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN
Anima Anandkumar is a professor at the Caltech Computing and Mathematical Sciences Department and a director of machine learning research at NVIDIA, where she leads a research group developing next-generation AI algorithms. At Caltech, she is also the co-director of Doclit and co-leads the AI4science initiative. Anima presents the current status of AI today and why she believes it is the most powerful force of our time.Sparks! | Eng Lim Goh | Better data distribution for better AICERN2021-12-20 | Talk recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Eng Lim Goh is the senior vice president and chief technology officer for artificial intelligence at Hewlett Packard Enterprise, with an interest in machine learning and deductive reasoning in artificial intelligence. Eng proposes an idea on how to distribute data without compromising its privacy.Sparks! | Q & A | Sparking curiosity: can AI be a tool for innovation?CERN2021-12-20 | Q&A recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Speakers Max Welling and Eng Lim Goh answer questions from host Bruno Giussani.Sparks! | Hiroaki Kitano | Nobel Turing ChallengeCERN2021-12-20 | Talk broadcast live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Hiroaki is the CEO of Sony AI Inc. and president and CEO of Sony Computer Science Laboratories. He has been involved in AI, systems biology and intelligent robots research. Hiroaki is the author of the paper ""Nobel Turing Challenge: creating the engine for scientific discovery"" that challenges the scientific community to develop an AI system that can perform top-level science, indistinguishable from the quality of that of Nobel Prize level recognition.Sparks! | Q & A | Constructing AI: What are the missing building blocks and whats next?CERN2021-12-20 | Q&A recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Speakers Anima Anandkumar and Koray Kavukcuoglu answer questions from host Bruno Giussani.Sparks! | Max Welling | Whats next: the path to AGICERN2021-12-20 | Talk recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Max Welling is research chair in Machine Learning at the University of Amsterdam and VP of Technologies at Qualcomm. In this video, he discusses the concept of artificial general intelligence, or AGI, exploring topics such as whether AI has the potential to exceed human intelligence, and discusses AI regulation and how AI can be considered to be creative. Max is also a distinguished scientist at Microsoft Research.Sparks! | Ferdi Alici | InterviewCERN2021-12-20 | Interview recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Ferdi Alici, Director of Ouchhh, a global creative new media studio, speaks to Bruno Giussani about the unique mapping project that started off the show. The project used data from the LHC to produce an impressive, custom piece.Sparks! | Q & A | Strong AI: Our mirroring selves?CERN2021-12-20 | Q&A recorded live at CERN on 18 September 2021 during the first edition of Sparks! The Serendipity Forum at CERN Speakers Ed Boyden and S. Matthew Liao answer questions from host Bruno Giussani.