Quantum Squeezing and Classical Squeezing - what can one teach us about the other
Seminar
Speaker
Avi Peer
Date
03/12/2014 - 14:00Add to Calendar
2014-12-03 14:00:00
2014-12-03 14:00:00
Quantum Squeezing and Classical Squeezing - what can one teach us about the other
Quantum squeezing - the reduction of noise fluctuations below the shot-noise limit in one quadrature of the light at the expense of amplified noise in the other quadrature - offers great opportunities for precision measurement and quantum information. Current detection methods for quantum squeezing are unfortunately limited by detectors bandwidth, allowing experimental access only to narrowband squeezing. I will describe our efforts to develop broadband detection schemes for quantum squeezing and to exploit it in quantum measurement. I will specifically describe how classical methods from the RF domain can inspire quantum detection using the optical nonlinearity as the physical correlation detector
seminar room on the 9th floor of the Nanobuilding
Department of Physics
physics.dept@mail.biu.ac.il
Asia/Jerusalem
public
Place
seminar room on the 9th floor of the Nanobuilding
Abstract
Quantum squeezing - the reduction of noise fluctuations below the shot-noise limit in one quadrature of the light at the expense of amplified noise in the other quadrature - offers great opportunities for precision measurement and quantum information. Current detection methods for quantum squeezing are unfortunately limited by detectors bandwidth, allowing experimental access only to narrowband squeezing. I will describe our efforts to develop broadband detection schemes for quantum squeezing and to exploit it in quantum measurement. I will specifically describe how classical methods from the RF domain can inspire quantum detection using the optical nonlinearity as the physical correlation detector
Last Updated Date : 05/12/2022
