With the Higgs boson already in the bag, the Large Hadron Collider begins another period of data collection.
“There is a lot of scope in the Higgs sector,” she said. In a nutshell, it is the interaction of fundamental particles with this field, interactions first thought to have occurred shortly after the big bang as the universe expanded and cooled, which gives them mass. “The Higgs field explains why atoms exist, why we exist. It’s really a unique moment in the life of the scientist.” But the story is far from over. But for Prof Daniela Bortoletto the memories are as fresh as ever.
CERN is gearing up for more discoveries a decade after the discovery of Higgs boson or God Particle. The world's most powerful accelerator is once again ...
Andreas Hoecker, spokesperson of the ATLAS collaboration, said the strengths of the Higgs boson interactions with matter and force particles will be measured to unprecedented precision. The Higgs boson must exist for the Standard Model to be correct. Live commentary from the CERN control centre will explain the operation stages that take proton beams from injection into the LHC to collisions for particle physics at the four interaction points. The studies performed by ATLAS and CMS will aim to understand new effects in different processes predicted by LHCb. The Standard Model of Physics describes how various particles make the universe. This asymmetry between matter and antimatter is known as matter-antimatter asymmetry, and one of the biggest challenges in physics is to figure out what happened to the antimatter. According to the official website of the Nobel Prize organisation, the Higgs mechanism, that explains how particles acquire mass, is what managed to rescue the Standard Model. The measurement precision of numerous known processes will be improved because previously inaccessible processes can be observed. The LHC will work continuously for four years at a record energy of 13.6 trillion electron volts (TeV), and will provide greater precision and discovery potential than ever before. With the help of these changes, the LHC experiments can collect significantly larger data samples, with data of higher quality compared to those obtained in previous runs. The ATLAS and CMS detectors are expected to record more collisions during Run 3 than in the two previous runs combined. CERN is gearing up for more discoveries a decade after the discovery of the Higgs boson or God Particle. Since April, beams have been circulating in CERN's accelerator complex.
The European Council for Nuclear Research, best known as CERN, has announced that they are ready to restart their Large Hadron Collider (LHC).
The organization also claimed that planets and stars have remained without disturbance despite such high energy interactions taking place over the years. LHC had its biggest moment in 2012 when it discovered the Higgs boson particle. The European organization announced on its website:
Ten years ago, the discovery of the Higgs Boson particle helped make sense of our universe. But in doing so, it unlocked a whole host of new questions.
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THE European Organization for Nuclear Research is celebrating its tenth anniversary by restarting its Large Hadron Collider on July 5.The European org.
I really hope you don't rip a hole in space/time, create a multiverse or start a real life stranger things." The discovery of Higgs was vital to the Standard Model - the theory that describes the web of particles, forces and interactions that make up the universe. "I remember with emotion the day of the announcement, a day of immense joy for the worldwide particle physics community and for all the people who worked tirelessly over decades to make this discovery possible." Reflecting on the 10th anniversary of the discovery, Cern's Director-General and the project leader of the Atlas experiment at the time, Fabiola Gianotti, said: "The discovery of the Higgs boson was a monumental milestone in particle physics. "T-MINUS 2 hours for the#cernatlas project tests their hadrin collider. "It marked both the end of a decades-long journey of exploration and the beginning of a new era of studies of this very special particle. Andreas Hoecker, spokesman of the Atlas collaboration, said: "We will measure the strengths of the Higgs boson interactions with matter and force particles to unprecedented precision, and we will further our searches for Higgs boson decays to dark matter particles as well as searches for additional Higgs bosons." In October 2016, he joined the Department of Computer Science at Oxford University as a professorial research fellow and as a fellow of Christ Church, one of the Oxford college. They will also study the properties of matter under extreme temperature and density, and will be searching for candidates for dark matter and for other new phenomena. According to theHouse of Switzerland, CERN'slocation was chosen: "to host CERN to a large extent because of its neutrality and its safeguards against the misappropriation of scientific research results for military purposes." Higgs boson big anniversaryCERNis set for a series of events starting on July 3, 2022, with the first celebrations of the ten-year anniversary of the discovery of the Higgs boson particle. The LHC, which is the world's largest and most powerful particle accelerator, is at the center of conspiracies surrounding CERN, with people sharing their theories regarding the "portal" that will open after two high-energy particle beams are set to travel at close to the speed of light before they collide.
Ten years after it discovered the Higgs boson, the Large Hadron Collider is about to start smashing protons together at unprecedented energy levels in its ...
"Particle physics does not simply want to understand the how – our goal is to understand the why," he said. "Is the Higgs boson really a fundamental particle or is it a composite?" "Is it the only Higgs-like particle that exists – or are there others?" "The Higgs boson is related to some of the most profound open questions in fundamental physics today," said CERN director-general Fabiola Gianotti, who first announced the boson's discovery a decade ago. "This is a significant increase, paving the way for new discoveries," Lamont said. This time around the proton beams will be narrowed to less than 10 microns – a human hair is around 70 microns thick – to increase the collision rate, he added.
CERN is all set to restart the Large Hadron Collider (LHC) on July 5th but it has also given rise to the rumors that the world is going to end on July 5th ...
If you want to watch it on Facebook, you can do so here. If you wish to watch it on Twitter, you can do so by clicking on the link here. On its website, CERN notes that “scientists will study the properties of matter under extreme temperature and density” Andreas Hoecker, spokesperson of CERN’s ATLAS collaboration..
Nearly ten years after scientists announced the discovery of the Higgs Boson, the particle accelerator is about to start smashing particles together at ...
The Future Circular Collider is an even bigger machine aimed at ensuring the seamless continuation of the world’s particle physics programme in the post-LHC era. But the collider itself is the largest and most complex machine ever built by man. The Data Centre has over 100 petabytes of this data permanently archived on tape. The collision of the two beams generates temperatures more than 100,000 times hotter than the hottest part of the sun, which is the core. CERN built LHC between 1998 and 2008 in collaboration with over 10,000 scientists from hundreds of universities and laboratories. The world’s largest particle accelerator, the Large Hadron Collider (LHC) is back in action since April for its third run after a three-year break for upgrades.
An announcement from the European Organisation for Nuclear Research (CERN) has put serious wind up apocalyptic conspiracy theorists online, ...
“A lot of people think the last time CERN was turned on, we were shifted to a different timeline and reality. “Is the Higgs boson really a fundamental particle or is it a composite?” he asked. “Particle physics does not simply want to understand the how — our goal is to understand the why,” he said. “The Higgs boson is related to some of the most profound open questions in fundamental physics today,” said CERN director-general Fabiola Gianotti, who first announced the boson’s discovery a decade ago. While she is correct the collider will be run at higher speeds, evidence is seriously lacking as to if the artificial collision can indeed “shift” humans into a “new reality”. One woman bizarrely claimed drinking over the 4th of July weekend would put those at risk of “falling behind” as the universe shifts to a “new timeline” as a result of the Hadron Collider.
TODAY scientists will re-start the world's largest and most powerful particle accelarator to test the extremes of physics - after it was shut down thr.
"T-MINUS 2 hours for the #cern atlas project tests their hadron collider. I really hope you don't rip a hole in space/time, create a mulitverse or start a real life stranger things." "And if we can create gravitons at the Large Hadron Collider at CERN, we might be able to see evidence of them leaving our dimensions for other ones." People have shared their superstitions regarding the "portal" that will open after two high-energy particle beams are set to travel at close to the speed of light before they collide. Andreas Hoecker, spokesman of the Atlas collaboration, said: "We will measure the strengths of the Higgs boson interactions with matter and force particles to unprecedented precision, and we will further our searches for Higgs boson decays to dark matter particles as well as searches for additional Higgs bosons." Scientists will be looking at the "God particle" 10 years after its discovery with unprecedented precision and in new channels.
The Large Hadron Collider is ready to once again start delivering proton collisions to experiments, this time at an unprecedented energy of 13.6 TeV, ...
In addition to the main lead–lead runs, a short period with oxygen collisions will be included for the first time, with the goal of exploring the emergence of QGP-like effects in small colliding systems. “Data acquired during Run 3 with our brand new detector will allow us to improve the precision by a factor of two and to confirm or exclude possible deviations from lepton flavour universality,” says Chris Parkes, spokesperson of the LHCb collaboration. These will be the target of specific studies performed by ATLAS and CMS. “This complementary approach is essential; if we’re able to confirm new effects in this way it will be a major discovery in particle physics,” says Luca Malgeri, spokesperson of the CMS collaboration. Scientists will study the properties of matter under extreme temperature and density, and will also be searching for candidates for dark matter and for other new phenomena, either through direct searches or – indirectly – through precise measurements of properties of known particles. Compared to Run 1, in which the Higgs was discovered with 12 inverse femtobarns, now in Run 3 we will be delivering 280 inverse femtobarns . This is a significant increase, paving the way for new discoveries,” says director for accelerators and technology Mike Lamont. A new period of data taking begins on Tuesday, 5 July for the experiments at the world’s most powerful particle accelerator, the Large Hadron Collider (LHC), after more than three years of upgrade and maintenance work.
CERN, the European Organisation for Nuclear Research is turning on its powerful particle accelerator for the first time in three years.
The collider has not produced any collisions so far. When the Large Hadron Collider was first switched on near Geneva, Switzerland on September 10 2008, people began theorising that it would create microscopic black holes that would start sucking surrounding matter faster and faster until it causes the world to end. After being shut down for upgrade and maintenance work, the Large Hadron Collider (LHC) experiment is set to begin a new period of data after three years.
The world's largest and most powerful particle collider started back up in April after a three-year break for upgrades in preparation for its third run, ...
Their focus remains the Higgs boson. Andreas Hoecker, spokesman of the Atlas collaboration, said: “We will measure the strengths of the Higgs boson interactions with matter and force particles to unprecedented precision, and we will further our searches for Higgs boson decays to dark matter particles as well as searches for additional Higgs bosons.” During the experiments, scientists will look at the nature of the Higgs boson, discovered by the LHC ten years ago, with unprecedented precision and in new channels.
El hallazgo se ha realizado en el experimento LHCb, fruto de una colaboración científica internacional y que forma parte del Gran Colisionador de Hadrones (LHC) ...
� EFE 2022. Explicó que actualmente los científicos están viviendo una época similar a la que se conoció en los años 1950, cuando comenzaba a descubrirse “un verdadero zoológico de partículas”, que eran los hadrones. En los diez años transcurridos desde el descubrimiento del Boson de Higgs en el CERN, el LHC -una máquina en la que los haces de protones chocan a energías jamás alcanzadas- ha hecho posible el descubrimiento de más de 60 partículas compositivas.
As the moment when CERN restarts the Large Hadron Collider (LHC) approaches, there have been reports of many people the world over who are fearing that it ...
As for what CERN is actually doing, Andreas Hoecker, spokesperson of CERN’s ATLAS collaboration states on their website that “scientists will study the properties of matter under extreme temperature and density. It didn’t take long before many were convinced that on July 5th when CERN turns on their collider, the world would witness either the creation of a black hole or the opening of a portal to another dimension. The July 5th ignition of CERN’s Large Hadron Collider is no different, as a fake report which detailed an alleged black hole accident recently made the rounds.
CERN lights up the Large Hadron Collider for Run 3, a four year continuous run after its second long shutdown in 2018.
The beams collide in the machine at four points or "detectors" called ATLAS, CMS, ALICE and LGCb, each of which focusses on measuring different types of hadron particles. "We're looking forward to measurements of the Higgs boson decay to second-generation particles such as muons. Hence the need for accelerator like LHC with its 27km circumference, which accelerates hadron particles (such as lead, xenon and oxygen ions at different levels of the mass spectrum) in a way that forms two beams traveling in opposite directions, almost at the speed of light.
Ginebra, Suiza.- Científicos del Gran Colisionador de Hadrones anunciaron este martes el descubrimiento de tres nuevas partículas “exóticas”.
Excepcionalmente, los quarks pueden combinarse en partículas de cuatro o cinco, de ahí los términos "tetraquarks" y "pentaquarks". Los quarks son partículas elementales que generalmente se juntan en grupos de dos o tres para formar hadrones, como los protones y neutrones que forman los núcleos de los átomos. La colaboración internacional LHCb en el LHC "ha observado tres partículas nunca antes vistas: un nuevo tipo de 'pentaquark' y el primer par de 'tetraquarks', que incluye un nuevo tipo de tetraquark", el Centro Europeo de Partículas Física (CERN) dijo en un comunicado.
Upgrades to the colossal accelerator could help scientists discover new particles and gain better understanding of dark matter.
Scientists at the Large Hadron Collider in Switzerland have discovered one new pentaquark and two tetraquarks. This takes the total number discovered there to ...
That is brief by human standards, but because these particles travel at close to the speed of light, they would leave trails a few millimetres long, which would be a treasured footprint for physicist sleuths to follow. That is an essential first step towards creating a theory and set of rules governing exotic mass. This takes the total number discovered there to 21.
Geneva, Switzerland, Jul 5 (EFE).- Scientists at the Large Hadron Collider on Tuesday announced the discovery of three new “exotic” particles.
The more experiments that are carried out, the more exotic hadron-like particles are found, coordinator of physics at the LHCb, Niels Tuning, said at a seminar. Quarks are elementary particles that generally come together in groups of two or three to form hadrons, such as the protons and neutrons that make up the nuclei of atoms. The international LHCb collaboration at the LHC “has observed three never-before-seen particles: a new kind of ‘pentaquark’ and the first-ever pair of ‘tetraquarks’, which includes a new type of tetraquark,” the European Center for Particle Physics (CERN) said in a statement.
The LHC is colliding proton beams at a world-record-breaking energy of 13.6 tera electron volts (TeV). The higher beam energy and intensity of Run 3 will allow ...
"In addition to the new hardware, ATLAS upgraded large parts of its software, simulation and computing environment to boost performance, save resources and enable it for use with heterogeneous computing systems," concludes Andreas. Of course, a centrepiece of the ATLAS physics programme remains the Higgs boson. These are but a few of the scientific highlights expected from Run 3. If it is made of particles, as most physicists expect, these may interact with protons or the Higgs boson and be produced in LHC collisions.” Dark matter is invisible and can only be spotted when produced with other, visible particles. The return of LHC beams comes after more than three years of upgrade and maintenance work, with new detector systems and electronic infrastructure installed 100 metres underground in the ATLAS cavern. We have prepared a broad scientific programme, taking advantage of new upgrades to our experiment."
Scientists working with the Large Hadron Collider (LHC) have discovered three subatomic particles never seen before as they work to unlock the building ...
We're creating 'particle zoo 2.0'." Register now for FREE unlimited access to Reuters.com Register now for FREE unlimited access to Reuters.com
(CNN) A decade ago, the Large Hadron Collider, Earth's most powerful particle accelerator, proved the existence of an subatomic particle called the Higgs boson ...
Physicists François Englert and Peter Higgs first theorized the existence of the Higgs boson in the 1960s. Scientists now believe that the Higgs boson is the particle that gives all matter its mass. Physics' Standard Model lays out the basics of how elementary particles and forces interact in the universe. But of course the answer is in the hands of nature, and it depends on how nature answers open questions in fundamental physics," said Fabiola Gianotti, CERN Director-General, in a video posted on CERN's website. That would be the best result. It works by smashing tiny particles together to allow scientists to observe them and see what's inside.
Physicists at the Large Hadron Collider (LHC) have announced the observation of three never-before-seen particles as the accelerator kicks off its third run ...
ALICE (A Large Ion Collider Experiment), which is designed to study the physics of strongly interacting matter at extreme energy densities, "is aiming at a staggering fifty-fold increase in the number of recorded collisions," according to CERN. The four big LHC experiments have been updated to cope with the results of the upgrade. The LHC was first fired up in 2010 and this latest activity is expected to last for almost four years at a record energy of 13.6 trillion electronvolts (TeV).
Scientists working with the Large Hadron Collider have discovered three subatomic particles never seen before as they work to unlock the building blocks of ...
We’re creating ‘particle zoo 2.0’.” “We’re witnessing a period of discovery similar to the 1950s, when a ‘particle zoo’ of hadrons started being discovered and ultimately led to the quark model of conventional hadrons in the 1960s. Now scientists at CERN say they have observed a new kind of “pentaquark” and the first-ever pair of “tetraquarks,” adding three members to the list of new hadrons found at the LHC.
GENEVA — (AP) — The physics lab that's home to the world's largest atom smasher announced on Tuesday the observation of three new “exotic particles” that ...
Data from the collisions is snapped up by high-tech detectors along the circular path. Most exotic hadrons, which are subatomic particles, are made up of two or three elemental particles known as quarks. The strong force is one of four forces known in the universe, along with the “weak force” — which applies to the decay of particles — as well as the electromagnetic force and gravity.
A conspiracy theory surrounding CERN, the Large Hadron Collider, and multidimensional portals exploded across TikTok in recent days.
“Don’t drink or smoke on the 4th y’all!!!” one user wrote. “I feel like they’re saying ‘the 5th’ when it’s happening on the 4th. The LHC, which is 17 miles in length, is designed to launch beams of protons and other particles at one another at nearly the speed of light by utilizing superconducting magnets. Often referred to as the “God particle,” the Higgs boson is a subatomic particle that came into being shortly after the universe began with the Big Bang. Another popular video with more than 995,000 views showed a Christian minister discussing the LHR while claiming that content regarding portals was purposely being placed into popular culture in order to condition the public. In one video with more than 1.4 million views, a TikToker claims that a portal to another dimension will be opened by the LHC once it is turned back on.
The physics lab that's home to the world's largest atom smasher has announced the observation of three new “exotic particles” that could provide clues to ...
Data from the collisions is snapped up by high-tech detectors along the circular path. Most exotic hadrons, which are subatomic particles, are made up of two or three elemental particles known as quarks. The observation of a new type of pentaquark and the first duo of tetraquarks at CERN, the Geneva-area home to the Large Hadron Collider, offers a new angle to assess the “strong force” that holds together the nuclei of atoms.
The LHCb collaboration has observed a new kind of pentaquark and the first-ever pair of tetraquarks as it seeks to unlock the building blocks of the ...
It is a pentaquark made up of a charm quark and a charm antiquark, and an up, a down, and a strange quark, CERN said. “The more analyses we perform, the more kinds of exotic hadrons we find,” LHCb physics coordinator Niels Tuning said. The second kind is a doubly electrically charged tetraquark.
CERN July 5th Large Hadron Collider (LHC) particle accelerator run not used to create a cosmic black hole, Mandela effect or time shift, as conspiracy ...
CERN July 5th Large Hadron Collider (LHC) particle accelerator run not used to create a cosmic black hole, Mandela effect or time shift, as conspiracy ...
Physicists from the Large Hadron Collider beauty (LHCb) Collaboration at CERN's Large Hadron Collider (LHC) announced today the observation of a strange ...
It is the first pentaquark found to contain a strange quark. Observed in an analysis of decays of negatively charged B mesons, PΛψs(4338)0 is a pentaquark made up of a charm quark and a charm antiquark and an up, a down and a strange quark. In 2020, the LHCb physicists discovered a tetraquark made up of two charm quarks and two charm antiquarks, and two ‘open-charm’ tetraquarks consisting of a charm antiquark, an up quark, a down quark and a strange antiquark.
CERN, the world's largest atom smasher, has resumed operations after a three-year pause for maintenance and routine checks, observing three new exotic ...
FILE - A technician works in the LHC (Large Hadron Collider) tunnel of the European Organization for Nuclear Research, CERN, during a press visit in Meyrin, ...
Data from the collisions is snapped up by high-tech detectors along the circular path. Most exotic hadrons, which are subatomic particles, are made up of two or three elemental particles known as quarks. The observation of a new type of pentaquark and the first duo of tetraquarks at CERN, the Geneva-area home to the Large Hadron Collider, offers a new angle to assess the “strong force” that holds together the nuclei of atoms.
The LHCb collaboration has observed a new kind of pentaquark and the first-ever pair of tetraquarks as it seeks to unlock the building blocks of the ...
It is a pentaquark made up of a charm quark and a charm antiquark, and an up, a down, and a strange quark, CERN said. “The more analyses we perform, the more kinds of exotic hadrons we find,” LHCb physics coordinator Niels Tuning said. The second kind is a doubly electrically charged tetraquark. Quarks are elementary particles that come in six “flavours”: up, down, charm, strange, top, and bottom. But they can also combine into four-quark and five-quark particles, called tetraquarks and pentaquarks. Two years ago, however, the LHCb experiment discovered an exotic tetraquark made up of two charm quarks and two charm antiquarks, and two “open-charm” tetraquarks consisting of a charm antiquark, an up quark, a down quark and a strange antiquark.
Scientists at CERN say they have observed a new kind of "pentaquark" and the first-ever pair of "tetraquarks", adding three members to the list of new ...
We’re creating ‘particle zoo 2.0’.” “We’re witnessing a period of discovery similar to the 1950s, when a ‘particle zoo’ of hadrons started being discovered and ultimately led to the quark model of conventional hadrons in the 1960s. “The more analyses we perform, the more kinds of exotic hadrons we find,” physicist Niels Tuning said in a statement.
CERN Large Hadron Collider: What have physicists found and what are they looking for next. [Image: R. Gonzalez Suarez/CERN].
More than 5,500 scientists from 245 institutes in over 40 countries work on the LHC’s largest experiment, ATLAS. Other new experiments at CERN probing the nature of the universe will focus on collisions of high-energy ions, to better understand the plasma that was present only in the first microsecond after the Big Bang; probe the insides of protons; study cosmic rays; and search for the still-hypothetical magnetic monopole, an isolated magnet with only one magnetic pole. The new tetraquarks, observed with a statistical significance of 6.5 and 8 standard deviations respectively, are the first time a pair of tetraquarks has been observed. The first-ever pair of tetraquarks and the new pentaquark, discovered in torrents of data gathered during previous research at the LHC, will help explain how subatomic particles form. Specifically, the new findings will help theorists develop a unified model of exotic hadrons, and better understand conventional hadrons. In particle accelerators like this, slamming protons together at high energy can produce tiny fragments of the universe not normally seen. The Higgs, named for the Nobel Prize-winning physicist who theorized it, helps give all matter its mass, and is thought to have been present at the creation of the universe, moments after the Big Bang 13.7 billion years ago.
Scientists working with the Large Hadron Collider have discovered three subatomic particles never seen before.
We’re creating ‘particle zoo 2.0’.” — Michael Shields, (c) 2022 Reuters “We’re witnessing a period of discovery similar to the 1950s, when a ‘particle zoo’ of hadrons started being discovered and ultimately led to the quark model of conventional hadrons in the 1960s. Now scientists at Cern say they have observed a new kind of “pentaquark” and the first-ever pair of “tetraquarks”, adding three members to the list of new hadrons found at the LHC.
Scientists at European nuclear research center CERN discovered three never-before-seen subatomic particles while working with the Large Hadron Collider.
The drastically energized beams of protons will cause more collisions which, in theory, will allow for more new discoveries. "The more analyses we perform, the more kinds of exotic hadrons we find," physicist Niels Tuning explained in CERN's statement. Now, the new subatomic particle discoveries will help physicists better understand the way in which quarks bing to form composite particles.
The physics lab that's home to the world's largest atom smasher has announced the observation of three new “exotic particles” that could provide clues to ...
Data from the collisions is snapped up by high-tech detectors along the circular path. Most exotic hadrons, which are subatomic particles, are made up of two or three elemental particles known as quarks. The observation of a new type of pentaquark and the first duo of tetraquarks at CERN, the Geneva-area home to the Large Hadron Collider, offers a new angle to assess the "strong force" that holds together the nuclei of atoms.
For over 50 years, ICHEP has gathered physicists from around the world to share the latest advancements in particle physics, astrophysics, cosmology, and ...
These key results will be explored in ATLAS Physics Briefings, with many more presented in conference talks and posters. - Measurement of the properties of Higgs boson production at 13 TeV in the H→γγ channel using 139 fb−1 of proton–proton collision data with the ATLAS experiment(arXiv:2207.00348, see figures) This is the first time the conference has been held in person since 2018, now with an added remote participation option.
So it should come as no surprise that on July 5, 2022, when scientists at CERN fired up the Large Hadron Collider (LHC) after three years of upgrades and ...
For example, in 2016 some internet users misappropriated a photographer’s image of a storm over Switzerland to falsely claim that CERN opened a portal into another dimension. Overbye, Dennis. “As the Large Hadron Collider Revs Up, Physicists’ Hopes Soar.” The New York Times, 13 June 2022. In 2012 CERN researchers identified the Higgs boson, described by The New York Times as “a long-sought particle, which imparts mass to all the other particles in the universe.” Another rumor, again spread in 2016, falsely stated that a video depicted a human sacrifice at the facility. What is the “dark matter” that suffuses the cosmos? CERN will be opening a portal on July 5th.
The Large Hadron Collider, the world's largest particle accelerator, is back online, as is the usual hype that it will destroy the world. (It won't.)
Does that mean the LHC is a few more experiments from opening up a portal and zapping a demogorgon into our dimension? In short, using the LHC to smash particles together — as scary as that may be to some — was the quickest way to observe something called the Higgs field, a theoretical energy field that permeates everything, and imbues matter with mass. That essay kicked off years of commentary, both serious and not, about the LHC killing us all, including John Oliver’s 2009 segment on The Daily Show in which he interviewed a science teacher who believed that its experiments had a “one in two chance” of creating an Earth-destroying black hole.
The physics lab that's home to the world's largest atom smasher has announced the observation of three new “exotic particles” that could provide clues to ...
Data from the collisions is snapped up by high-tech detectors along the circular path. Most exotic hadrons, which are subatomic particles, are made up of two or three elemental particles known as quarks. The observation of a new type of pentaquark and the first duo of tetraquarks at CERN, the Geneva-area home to the Large Hadron Collider, offers a new angle to assess the "strong force" that holds together the nuclei of atoms.