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After the gravitational waves from a binary black hole merger were discovered by LIGO and Virgo in 2016, the detections of gravitational waves with other methods are necessary and urgent. When we study the designs for detecting gravitational waves with an atomic beam, we propose a new quantum measurement effect of interaction without interaction for an atomic beam. This book deeply demonstrates quantum measurements and interpretations of quantum mechanics, provides the methods for controlling the mechanical motions of a charged particle by using quantum measurements and presents the quantum…mehr

Produktbeschreibung
After the gravitational waves from a binary black hole merger were discovered by LIGO and Virgo in 2016, the detections of gravitational waves with other methods are necessary and urgent. When we study the designs for detecting gravitational waves with an atomic beam, we propose a new quantum measurement effect of interaction without interaction for an atomic beam. This book deeply demonstrates quantum measurements and interpretations of quantum mechanics, provides the methods for controlling the mechanical motions of a charged particle by using quantum measurements and presents the quantum measurement effects of interaction without interaction for quantum entanglement dynamics and for an atomic beam. The book also sketches the gravitational wave detector with two non-interfered atomic beams based on the quantum measurement effect. The new quantum measurement effect can be verified with now techniques, so the book will attract experimental physicists and also attract anyone who is interested in quantum measurements and the philosophies of quantum mechanics.
Autorenporträt
Yong-Yi Huang, PHD: studied atomic physics at Fudan University, Shanghai, China. Research interests include quantum optics, quantum information, quantum gases, Professor at Xi'an Jiaotong University, Xi'an, China.