|
|
|
A 2nd-generation gravitational neutron spectrometer
The GRANIT project consists of designing and building a second-generation gravitational neutron spectrometer with ultra-high resolution. Its key property is the storage of UCN in a selected gravitationally bound state for extended period of time using a closed specula trap. The high quality of mirrors needed for the trap is at the edge of modern technology.
Applications
ApplicationsParticle physics and fundamental interactions, e.g.:
Foundations of quantum mechanics, e.g.:
Solid-state physics Experimental techniques and their possible technological applications. The neutron whispering gallery effectThe whispering gallery effect is well know for sound waves. The GRANIT team will use it for neutron experiments. The existence of the phenomenon was proved by an experiment preformed on the D17 reflectometer. This is the first experimental evidence for neutron localization (whispering gallery wave) in the quasistationary quantum states near a cylindrical mirror surface. The boundary effective well is formed by the centrifugal effective potential and the mirror neutron–matter optical potential Ref.: The whispering gallery effect in neutron scattering, V. V. Nesvizhevsky, R. Cubitt, K. V. Protasov and A. Yu Voronin, New J. Phys. 12 113050, 2010. The movie of an interview of Valey Nesvizhevsky and Andrei Yu Voronin can be found HERE.
Here a schematic illustration of the neutron whispering gallery demonstrated by Nesvizhevsky et al. Ref.: Quantum optics: Neutrons in a whispering gallery, Helmut Rauch, Nature Physics 6, 79-80 (2010). |
The ILL is a member of EIROforum , a collaboration between eight European scientific research organisations
© 2007-2010 Institut Laue-Langevin 
Legal notice