Method for improving diamond NV color-center photon producing and collecting efficiency

A diamond and nano-diamond technology, which is applied in the field of improving the photon generation and collection efficiency of diamond NV color centers, can solve the problems of limiting the application of diamond NV color centers, low photon collection efficiency, and inability to be collected by objective lenses, and achieve compact structure and high photon Conversion efficiency, easy application effect

Inactive Publication Date: 2017-11-24
HEFEI UNIV OF TECH
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Problems solved by technology

However, only a small part of the photons emitted by the NV color centers inside the block diamond can be refracted on the diamond surface and collected by the objective lens. Collection efficiency ≤ 10% (using an objective lens with a maximum numerical aperture of 1.49), while considering the coupling and quantum efficiency of the detector, the detection efficiency of photons is < 2%
The low photon collection efficiency severely limits the application of diamond NV color centers in the fields of quantum information and quantum physics
[0003] In order to improve the collection efficiency of photons, the traditional method is to etch the shape of the lens on the surface of the block diamond by means

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  • Method for improving diamond NV color-center photon producing and collecting efficiency
  • Method for improving diamond NV color-center photon producing and collecting efficiency
  • Method for improving diamond NV color-center photon producing and collecting efficiency

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[0035] The technical scheme of the present invention will be further analyzed and described below in conjunction with the accompanying drawings and specific embodiments.

[0036] The method for improving the generation and collection efficiency of diamond NV color center photons in the present invention is to use the NV color center in diamond nanoparticles as a light-emitting medium, bind the nano-diamond particles in the hollow fiber, and combine the feedback technology to realize the NV color center by using 532nm laser. The excitation of the color center and high photon collection efficiency can be achieved.

[0037] The method that the present invention improves diamond NV color center photon generation and collection efficiency is as follows:

[0038] 1. Mix nano-diamond particles and optical glue (adjust the percentage of diamond particles in the optical glue according to the required laser power intensity) and inject them into the hollow fiber. After curing, the fiber ga...

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Abstract

The invention discloses a method for improving diamond NV color-center photon producing and collecting efficiency. The exciting effect of a 532 nm light field on a diamond NV color center is achieved by the aid of local effect of hollow optical fiber, and photons emitted by the NV color center are trapped in the optical fiber and are transmitted along the optical fiber; a transmitter lens is added to the other end of the optical fiber to feed back 532nm laser to the optical fiber, and the photons generated by the diamond NV color center are fed back to the optical fiber. The photons emitted by the diamond color center in the optical fiber are collected forward and backward, and the collecting efficiency can approximate to 100%; high photon collecting efficiency is achieved; due to existence of the local efficiency of the optical fiber and a feedback mechanism, the NV color center is excited only by weaker 532nm laser, and higher photon producing efficiency can be achieved; simpleness in structure is achieved, operation is convenient, and application prospect is wider.

Description

technical field [0001] The invention relates to a method for improving the generation and collection efficiency of diamond NV color center photons. The method has a collection efficiency of almost 100%, and also has the advantages of stable output, simple and compact structure, easy integration and the like. Background technique [0002] NV color center is a kind of light-emitting point defect in diamond crystal. A nitrogen atom replaces a carbon atom in diamond, and there is a hole in the adjacent position. Such a point defect is called NV color center. The diamond NV color center is a very important physical system, especially for a wide range of applications in the fields of quantum technology (including quantum metrology, quantum information process, quantum communication, etc.) and biological imaging. Considering the application prospects of diamond NV color centers in these aspects, the research on it has always been a hot issue in physics research. But usually, only ...

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Application Information

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IPC IPC(8): H01S3/067H01S3/094
Inventor 陈冰徐南阳宋雨萌田宇
Owner HEFEI UNIV OF TECH
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