Please tell us and post the sources.Lima 'Ula said:Hi Greg.
Have you been following the public comments since the recent release of the ILC technical Design Report? (e.g. http://phys.org/news/2013-06-international-linear-collider-ready.html).
The U.S. D.o.E. initially estimated the total cost of the project to be U.S. $20-billion how come it can now feasibly be constructed for U.S. $8.75-billion? Why did the Head of the ILC global design effort, physicist Barry Barish at a final blueprints conference in Tokyo last December 2012 suggest that if Japan were selected as a locale the design would be quote: "Technically, completely different than what we are looking at."? What reasons did he cite prohibiting the ILC from being built underground like the LHC if Japan were selected as host locale?
As far as I know, all estimates from the collaboration where around $8 billion (+-15%).Lima 'Ula said:The U.S. D.o.E. initially estimated the total cost of the project to be U.S. $20-billion how come it can now feasibly be constructed for U.S. $8.75-billion?
JorisL said:I don't get it. I can't see any place worse to build it than Japan. Japan is geologically quite active. And taking in mind that at the current LHC site they have to take the train station and movements in the nearby lake into account I don't see how this could work well.
The two candidate sites are located in mountainous regions where the geology for tunnelling is stable granite rock without active faults or volcanoes.
Evo said:Please tell us and post the sources.
Thanks.
Large earthquakes are rare. As long as they don't destroy the equipment, it does not matter if the beam alignment does not work properly during the earthquake.JorisL said:Japan is geologically quite active.
They have to take into account the tidal motion of Earth (not the water). This is the same everywhere, unless you plan to build an accelerator near the south pole (;)).And taking in mind that at the current LHC site they have to take the train station and movements in the nearby lake into account I don't see how this could work well.
The International Linear Collider is a proposed particle accelerator that would allow scientists to study the fundamental building blocks of matter at a much higher energy level than any existing collider. It would consist of two linear accelerators facing each other, accelerating particles to near the speed of light and colliding them.
The main goals of the ILC are to study the properties of the Higgs boson, to search for new particles and forces beyond the Standard Model, and to provide insight into the nature of dark matter and dark energy. It also aims to explore the origins of the universe by recreating conditions similar to those in the early universe after the Big Bang.
The location for the ILC has not been finalized yet, but it is currently being considered to be built in Japan or in Europe. Several potential sites are being evaluated based on geological, environmental, and social factors.
The ILC differs from other colliders, such as the Large Hadron Collider, in that it uses a linear design rather than a circular one. This allows for more precise control of the particles and collisions. It also operates at higher energies, which could lead to the discovery of new particles and phenomena.
The ILC is currently in the planning and development stage, and its construction and operation would likely take several years. The timeline for its completion and operation is dependent on funding and international collaborations, but it is estimated to be operational in the late 2020s or early 2030s.