noise squeezing
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2021 ◽  
Author(s):  
Zifan Zhao ◽  
Hui Chen ◽  
Weijie Li ◽  
Zedi Cheng ◽  
Haizhi Song ◽  
...  

2021 ◽  
pp. 104843
Author(s):  
E.A. Anashkina ◽  
A.A. Sorokin ◽  
G. Leuchs ◽  
A.V. Andrianov

Photonics ◽  
2021 ◽  
Vol 8 (6) ◽  
pp. 226
Author(s):  
Arseny A. Sorokin ◽  
Elena A. Anashkina ◽  
Joel F. Corney ◽  
Vjaceslavs Bobrovs ◽  
Gerd Leuchs ◽  
...  

Broadband quantum noise suppression of light is required for many applications, including detection of gravitational waves, quantum sensing, and quantum communication. Here, using numerical simulations, we investigate the possibility of polarization squeezing of ultrashort soliton pulses in an optical fiber with an enlarged mode field area, such as large-mode area or multicore fibers (to scale up the pulse energy). Our model includes the second-order dispersion, Kerr and Raman effects, quantum noise, and optical losses. In simulations, we switch on and switch off Raman effects and losses to find their contribution to squeezing of optical pulses with different durations (0.1–1 ps). For longer solitons, the peak power is lower and a longer fiber is required to attain the same squeezing as for shorter solitons, when Raman effects and losses are neglected. In the full model, we demonstrate optimal pulse duration (~0.4 ps) since losses limit squeezing of longer pulses and Raman effects limit squeezing of shorter pulses.


2020 ◽  
pp. 2150028
Author(s):  
Qiang Ke ◽  
Yi-Fan Wang ◽  
Yan-Bei Cheng ◽  
Xue-Xiang Xu

Based on the squeezed vacuum (SV) and the quadratic function of the photon number operator, we introduce the quadratically amplified squeezed vacuum (QASV) in this paper. We study the intensity, noise, squeezing effect, antibunching effect, and Wigner function of the QASVs. Compared with the SV, the QASVs have distinctive signal characters and possess peculiar non-classical properties in the proper range of interaction parameters.


Science ◽  
2020 ◽  
Vol 369 (6500) ◽  
pp. 174-179 ◽  
Author(s):  
Thomas M. Karg ◽  
Baptiste Gouraud ◽  
Chun Tat Ngai ◽  
Gian-Luca Schmid ◽  
Klemens Hammerer ◽  
...  

Engineering strong interactions between quantum systems is essential for many phenomena of quantum physics and technology. Typically, strong coupling relies on short-range forces or on placing the systems in high-quality electromagnetic resonators, which restricts the range of the coupling to small distances. We used a free-space laser beam to strongly couple a collective atomic spin and a micromechanical membrane over a distance of 1 meter in a room-temperature environment. The coupling is highly tunable and allows the observation of normal-mode splitting, coherent energy exchange oscillations, two-mode thermal noise squeezing, and dissipative coupling. Our approach to engineering coherent long-distance interactions with light makes it possible to couple very different systems in a modular way, opening up a range of opportunities for quantum control and coherent feedback networks.


2019 ◽  
Vol 123 (3) ◽  
Author(s):  
V. Guarrera ◽  
R. Gartman ◽  
G. Bevilacqua ◽  
G. Barontini ◽  
W. Chalupczak

2016 ◽  
Vol 24 (23) ◽  
pp. 26536 ◽  
Author(s):  
Lingchao Li ◽  
Xiangming Hu ◽  
Shi Rao ◽  
Jun Xu
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