Cavity-Enhanced Single-Photon Source Based on the Silicon-Vacancy Center in Diamond

被引:87
|
作者
Benedikter, Julia [1 ,2 ]
Kaupp, Hanno [1 ,2 ]
Huemmer, Thomas [1 ,2 ]
Liang, Yuejiang [3 ]
Bommer, Alexander [4 ]
Becher, Christoph [4 ]
Krueger, Anke [3 ]
Smith, Jason M. [5 ]
Haensch, Theodor W. [1 ,2 ]
Hunger, David [1 ,2 ,6 ]
机构
[1] Ludwig Maximilians Univ Munchen, Fak Phys, Schellingstr 4, D-80799 Munich, Germany
[2] Max Planck Inst Quantum Opt, Hans Kopfermann Str 1, D-85748 Garching, Germany
[3] Univ Wurzburg, Inst Organ Chem, D-97074 Wurzburg, Germany
[4] Univ Saarland, Fachrichtung Expt Phys 72, Campus E 2-6, D-66123 Saarbrucken, Germany
[5] Univ Oxford, Dept Mat, 16 Pk Rd, Oxford OX1 3PH, England
[6] Karlsruher Inst Technol, Phys Inst, Wolfgang Gaede Str 1, D-76131 Karlsruhe, Germany
来源
PHYSICAL REVIEW APPLIED | 2017年 / 7卷 / 02期
关键词
SOLID-STATE; OPTICAL MICROCAVITIES; CRYSTAL CAVITY; LIGHT-EMISSION; EMITTERS; NANOPHOTONICS;
D O I
10.1103/PhysRevApplied.7.024031
中图分类号
O59 [应用物理学];
学科分类号
摘要
Single-photon sources are an integral part of various quantum technologies, and solid-state quantum emitters at room temperature appear to be a promising implementation. We couple the fluorescence of individual silicon-vacancy centers in nanodiamonds to a tunable optical microcavity to demonstrate a single-photon source with high efficiency, increased emission rate, and improved spectral purity compared to the intrinsic emitter properties. We use a fiber-based microcavity with a mode volume as small as 3.4 lambda(3) and a quality factor of 1.9 x 10(4) and observe an effective Purcell factor of up to 9.2. Furthermore, we study modifications of the internal rate dynamics and propose a rate model that closely agrees with the measurements. We observe lifetime changes of up to 31%, limited by the finite quantum efficiency of the emitters studied here. With improved materials, our achieved parameters predict single-photon rates beyond 1 GHz.
引用
收藏
页数:12
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