Single phonon source based on a giant polariton nonlinear effect

Kang Cai; Zi Wen Pan; Rui Xia Wang; Dong Ruan; Zhang Qi Yin; Gui Lu Long

doi:10.1364/OL.43.001163

Single phonon source based on a giant polariton nonlinear effect

Kang Cai, Zi Wen Pan, Rui Xia Wang, Dong Ruan, Zhang Qi Yin, Gui Lu Long^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

We propose a single phonon source based on nitrogen-vacancy (NV) centers, which are located in a diamond phononic crystal resonator. The strain in the lattice would induce the coupling between the NV centers and the phonon mode. The strong coupling between the excited state of the NV centers and the phonon is realized by adding an optical laser driving. This four-level NV center system exhibits coherent population trapping and yields giant resonantly enhanced acoustic nonlinearities, with zero linear susceptibility. Based on this nonlinearity, the single phonon source can be realized. We numerically calculate g20 of the single phonon source. We discuss the effects of the thermal noise and the external driving strength.

Original language	English
Pages (from-to)	1163-1166
Number of pages	4
Journal	Optics Letters
Volume	43
Issue number	5
DOIs	https://doi.org/10.1364/OL.43.001163
Publication status	Published - 1 Mar 2018
Externally published	Yes

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Cai, K., Pan, Z. W., Wang, R. X., Ruan, D., Yin, Z. Q., & Long, G. L. (2018). Single phonon source based on a giant polariton nonlinear effect. Optics Letters, 43(5), 1163-1166. https://doi.org/10.1364/OL.43.001163

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title = "Single phonon source based on a giant polariton nonlinear effect",

abstract = "We propose a single phonon source based on nitrogen-vacancy (NV) centers, which are located in a diamond phononic crystal resonator. The strain in the lattice would induce the coupling between the NV centers and the phonon mode. The strong coupling between the excited state of the NV centers and the phonon is realized by adding an optical laser driving. This four-level NV center system exhibits coherent population trapping and yields giant resonantly enhanced acoustic nonlinearities, with zero linear susceptibility. Based on this nonlinearity, the single phonon source can be realized. We numerically calculate g20 of the single phonon source. We discuss the effects of the thermal noise and the external driving strength.",

author = "Kang Cai and Pan, {Zi Wen} and Wang, {Rui Xia} and Dong Ruan and Yin, {Zhang Qi} and Long, {Gui Lu}",

note = "Publisher Copyright: {\textcopyright} 2018 Optical Society of America.",

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doi = "10.1364/OL.43.001163",

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T1 - Single phonon source based on a giant polariton nonlinear effect

AU - Cai, Kang

AU - Pan, Zi Wen

AU - Wang, Rui Xia

AU - Ruan, Dong

AU - Yin, Zhang Qi

AU - Long, Gui Lu

PY - 2018/3/1

Y1 - 2018/3/1

N2 - We propose a single phonon source based on nitrogen-vacancy (NV) centers, which are located in a diamond phononic crystal resonator. The strain in the lattice would induce the coupling between the NV centers and the phonon mode. The strong coupling between the excited state of the NV centers and the phonon is realized by adding an optical laser driving. This four-level NV center system exhibits coherent population trapping and yields giant resonantly enhanced acoustic nonlinearities, with zero linear susceptibility. Based on this nonlinearity, the single phonon source can be realized. We numerically calculate g20 of the single phonon source. We discuss the effects of the thermal noise and the external driving strength.

AB - We propose a single phonon source based on nitrogen-vacancy (NV) centers, which are located in a diamond phononic crystal resonator. The strain in the lattice would induce the coupling between the NV centers and the phonon mode. The strong coupling between the excited state of the NV centers and the phonon is realized by adding an optical laser driving. This four-level NV center system exhibits coherent population trapping and yields giant resonantly enhanced acoustic nonlinearities, with zero linear susceptibility. Based on this nonlinearity, the single phonon source can be realized. We numerically calculate g20 of the single phonon source. We discuss the effects of the thermal noise and the external driving strength.

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U2 - 10.1364/OL.43.001163

DO - 10.1364/OL.43.001163

M3 - Article

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SN - 0146-9592

VL - 43

SP - 1163

EP - 1166

JO - Optics Letters

JF - Optics Letters

IS - 5

ER -

Single phonon source based on a giant polariton nonlinear effect

Abstract

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