ring cavity
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2022 ◽  
Vol 147 ◽  
pp. 107675
Author(s):  
L.A. Rodríguez-Morales ◽  
I. Armas-Rivera ◽  
M. Durán-Sánchez ◽  
E. Silvestre ◽  
M.V. Andrés ◽  
...  

2022 ◽  
Author(s):  
Yunjiu Cao ◽  
Guanglong Chen ◽  
Xinxin Zhao ◽  
Ye Liu ◽  
Liguo Qin

2021 ◽  
pp. 2100396
Author(s):  
Feng Wen ◽  
Sijia Hui ◽  
Shaowei Zhang ◽  
Zhenkun Wu ◽  
Zongchen Liu ◽  
...  

2021 ◽  
Author(s):  
Lei Gao ◽  
Ziwei Li ◽  
Hongqing Ran ◽  
Yulong Cao ◽  
Stefan Wabnitz ◽  
...  

Abstract Highly coherent frequency-entangled photons at telecom band are critical in quantum information protocols and quantum tele-communication. Photon pairs generated by spontaneous parametric down-conversion in nonlinear crystals or modulation instability in optical fibers exhibit random fluctuations. Here, we demonstrate highly stable frequency-entangled photons based on parametric instability in an active fiber ring cavity, where periodic modulation of dispersion excites parametric resonance, and the characteristic wave number is selected by the periodic modulation of resonator. Background-free autocorrelation of single-shot spectra reveals that spectra of parametric instability sidebands possess high coherence. The quantum properties are tested by the Hanbury Brown-Twiss measurement and Hong-Ou-Mandel interference. We conform the frequency-entanglement of two parametric instability sidebands by a spatial quantum beating with a fringe visibility of 97.9%. Our results prove that the parametric instability in active fiber cavity is effective to generate highly coherent frequency-entangled photon pairs, which would facilitate subsequent quantum applications.


2021 ◽  
Vol 67 ◽  
pp. 102693
Author(s):  
Oscar J. Ballesteros-Llanos ◽  
Efraín Mejía-Beltrán ◽  
Maribel Juárez-Hernández
Keyword(s):  

Photonics ◽  
2021 ◽  
Vol 8 (11) ◽  
pp. 472
Author(s):  
Jianfeng Chen ◽  
Hao Yang ◽  
Zhiyuan Fang ◽  
Ming Zhao ◽  
Chenbo Xie

A metal–insulator–metal (MIM) waveguide consisting of a circular split-ring resonance cavity (CSRRC) and a double symmetric rectangular stub waveguide (DSRSW) is designed, which can excite quadruple Fano resonances. The finite element method (FEM) is used to investigate influences of geometric parameters on the transmission characteristics of the structure. The results show that Fano resonances are excited by the interference between the DSRSW and the CSRRC. Among them, the resonance wavelengths of the Fano resonances are tuned by the narrow-band discrete state excited by the CSRRC, and the resonance line transmittance and profiles are tuned by the wide-band continuous state excited by the DSRSW. The sensitivity (S) can be up to 1328.8 nm/RIU, and the figure of merit (FOM) can be up to 4.80 × 104. Based on these advantages, the structure has potential applications in sensing in the sub-wavelength range.


2021 ◽  
Vol 12 ◽  
Author(s):  
Peng Wu ◽  
Wenjing Xiang ◽  
Chengke Yin ◽  
Shu Li

In recent years, blood pumps have become the bridge to heart transplantation for patients with heart failure. Portability and wearability of blood pumps should be considered to ensure patient satisfaction in everyday life. To date, the focus has been on the development of portable and wearable peripheral components, little attention has been paid to the portable and wearable performance of the blood pump itself. This study reported a novel design of a wearable and portable extracorporeal centrifugal blood pump. Based on an in-house centrifugal maglev blood pump, the wearable and portable blood pump was designed with parallel inlet and outlet pipes to improve the wearable performance. A ring cavity was set at the inlet to convert the circumferential velocity of the inlet pipe to an axial velocity. The hydraulic and hemolytic performance of the baseline and portable blood pumps were analyzed and compared. Compared with the baseline pump, the hydrodynamic and hemolytic performance of the portable pump has been maintained without serious degradation. The results of this study will improve the life quality of patients with heart failure, and enhance the clinical benefits of artificial heart.


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