Tag Archives: CERN

New Yorker on CERN’s Large Hadron Collider

Can a seventeen-mile-long collider unlock the universe?

A proton is a hadron composed of two up quarks and one down; a neutron consists of two downs and one up.) Fermions also include neutrinos, which, somewhat unnervingly, stream through our bodies at the rate of trillions per second.

The L.H.C., Doser explained, relies on much the same design, and, in fact, makes use of the tunnel originally dug for LEP. Instead of electrons and positrons, however, the L.H.C. will send two beams of protons circling in opposite directions. Protons are a good deal more massive than electrons—roughly eighteen hundred times more—which means they can carry more energy. For this reason, they are also much harder to manage.

“Basically, what you must have to accelerate any charged particles is a very strong electric field,” Doser said. “And the longer you apply it the more energy you can give them. In principle, what you’d want is an infinitely long linear structure, in which particles just keep getting pushed faster and faster. Now, because you can’t build an infinitely long accelerator, you build a circular accelerator.” Every time a proton makes a circuit around the L.H.C. tunnel, it will receive electromagnetic nudges to make it go faster until, eventually, it is travelling at 99.9999991 per cent of the speed of light. “It gets to a hair below the speed of light very rapidly, and the rest of the time is just trying to sliver down this hair.” At this pace, a proton completes eleven thousand two hundred and forty-five circuits in a single second.

Related: CERN Pressure Test FailureString Theory is Not Dead

CERN Pressure Test Failure

photo of Femilab inner triplet quadrupole at CERN

On March 27th a high-pressure test at CERN of a Fermilab-built ‘inner-triplet’ series of three quadrupole magnets in the tunnel of the Large Hadron Collider failed. Fermilab Director on the test failure:

We test the complex features we design thoroughly. In this case we are dumbfounded that we missed some very simple balance of forces. Not only was it missed in the engineering design but also in the four engineering reviews carried out between 1998 and 2002 before launching the construction of the magnets. Furthermore even though every magnet was thoroughly tested individually, they were never tested with the exact configuration that they would have when installed at CERN–thus missing the opportunity to discover the problem sooner.

We need and want to make sure that we find the root causes of the problem and from the lessons learned build a stronger institution. Beyond that, there is no substitute for the commitment each of us makes to excellence, to critical thinking and to sweating every detail.

In a Fermilab Update on Inner Triplet Magnets at LHC they state: “The goal at CERN and Fermilab is now to redesign and repair the inner triplet magnets and, if necessary, the DFBX without affecting the LHC start-up schedule. Teams at CERN and Fermilab have identified potential repairs that could be carried out expeditiously without removing undamaged triplet magnets from the tunnel.”

Related: Fermilab Statement on LHC Magnet Test FailureAccelerators and Nobel LaureatesFind the Root Cause Instead of the Person to Blame
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The Web is 15 Years Old

How the web went world wide

Many users know that Sir Tim Berners-Lee developed the web at the Cern physics laboratory near Geneva.

One key date is 6 August 1991 – the day on which links to the fledgling computer code for the www were put on the alt.hypertext discussion group so others could download it and play with it.

So, in 1991, the web protocol was added to the internet which was created by the United States ARPA and DARPA starting in 1968, or so depending on what is counted as the start.

Additional articles exploring the history of the internet and the world wide web: