Your search keyword '"Valle, F"' showing total 2 results

1. MEASURING THE MAGNETIC BIREFRINGENCE OF VACUUM:: THE PVLAS EXPERIMENT.

Author

ZAVATTINI, G., GASTALDI, U., PENGO, R., RUOSO, G., VALLE, F. DELLA, and MILOTTI, E.

Subjects

DOUBLE refraction, VACUUM, PHYSICS experiments, QUANTUM electrodynamics, NONLINEAR theories, OPTICAL polarization

Abstract

We describe the principle and the status of the PVLAS experiment which is presently running at the INFN section of Ferrara, Italy, to detect the magnetic birefringence of vacuum. This is related to the QED vacuum structure and can be detected by measuring the ellipticity acquired by a linearly polarized light beam propagating through a strong magnetic field. Such an effect is predicted by the Euler-Heisenberg Lagrangian. The method is also sensitive to other hypothetical physical effects such as axion-like particles and in general to any fermion/boson millicharged particle. Here we report on the construction of our apparatus based on a high finesse (> 2·105) Fabry-Perot cavity and two 0.9 m long 2.5 T permanent dipole rotating magnets, and on the measurements performed on a scaled down test setup. With the test setup we have improved by about a factor 2 the limit on the parameter Ae describing nonlinear electrodynamic effects in vacuum: Ae < 2.9 · 10-21 T-2 @ 95% C.L. [ABSTRACT FROM AUTHOR]

Published

2012

2. Towards a direct measurement of vacuum magnetic birefringence: PVLAS achievements

Author

Della Valle, F., Di Domenico, G., Gastaldi, U., Milotti, E., Pengo, R., Ruoso, G., and Zavattini, G.

Subjects

*DOUBLE refraction, *MAGNETOOPTICS, *NONLINEAR optics, *ELLIPSOMETRY equipment, *VACUUM, UNIVERSITY of Ferrara (Ferrara, Italy)

Abstract

Abstract: Nonlinear effects in vacuum have been predicted but never observed yet directly. The PVLAS collaboration has long been working on an apparatus aimed at detecting such effects by measuring vacuum magnetic birefringence. Unfortunately the sensitivity has been affected by unaccounted noise and systematics since the beginning. A new small prototype ellipsometer has been designed and characterized at the Department of Physics of the University of Ferrara, Italy entirely mounted on a single seismically isolated optical bench. With a finesse F =414,000 and a cavity length L =0.5m we have reached the sensitivity of given the laser power at the output of the ellipsometer of P =24mW. This record result, very close to the predicted limit, demonstrates the feasibility of reaching such sensitivities, and opens the way to designing a dedicated apparatus for a first detection of vacuum magnetic birefringence. [ABSTRACT FROM AUTHOR]

Published

2010