Vanadium 50 said:Because it's not a very steep optimum, and sometimes things break when you try and shoot again, so there's always a risk it will take longer. If you're running, it's a good idea to keep running as long as you can.
Vanadium 50 said:Take a look at http://www.c-ad.bnl.gov/pac2011/proceedings/talks/moocn2_talk.pdf" , slide 18, "Optimizing the Store Duration". The red line is relevant. It peaks at 23 hours, but a 6 hour shift makes only a 10% effect.
Also look at slide 15, where it points out that almost half of the magnet quenches (57 vs. 68) occur when putting a store in. That's a good reason to avoid doing this more often than necessary.
Luminosity life time is not constant but increases as the beams
decay and disperse. See e.g.
http://accelconf.web.cern.ch/AccelConf/p05/PAPERS/TPAP038.PDF
For a description of the store length optimization refer to
http://accelconf.web.cern.ch/AccelConf/PAC2009/papers/mo4rac03.pdf
The Tevatron fill time is long due to the complexity and scale of the machine. The Tevatron is a 6.3 km long circular particle accelerator, and it takes time to properly prepare and align the beams of particles before collisions can occur.
The Tevatron fill time can be affected by various factors such as the stability of the particle beams, the strength of the magnets used to steer the beams, and the availability of resources and personnel to operate the machine.
The fill time for the Tevatron can vary, but on average it takes several hours to properly prepare and align the beams before collisions can begin. This process can also be affected by any technical issues or adjustments that need to be made.
As with any complex machine, there is always room for improvement. Scientists and engineers are constantly working to optimize the Tevatron's fill time through upgrades and advancements in technology. However, the safety and accuracy of the particle collisions must always be prioritized.
The Tevatron's fill time is relatively long compared to other particle accelerators due to its size and complexity. However, it was one of the most powerful and successful accelerators of its time, and advancements in technology have allowed for faster fill times in more recent particle accelerators.