Stimulated emission from nitrogen-vacancy centres in diamond

被引:0
作者
Jan Jeske
Desmond W. M. Lau
Xavier Vidal
Liam P. McGuinness
Philipp Reineck
Brett C. Johnson
Marcus W. Doherty
Jeffrey C. McCallum
Shinobu Onoda
Fedor Jelezko
Takeshi Ohshima
Thomas Volz
Jared H. Cole
Brant C. Gibson
Andrew D. Greentree
机构
[1] Chemical and Quantum Physics,Department of Physics and Astronomy
[2] School of Science,undefined
[3] RMIT University,undefined
[4] ARC Centre of Excellence for Nanoscale BioPhotonics,undefined
[5] School of Science,undefined
[6] RMIT University,undefined
[7] ARC Centre of Excellence for Engineered Quantum Systems,undefined
[8] Macquarie University,undefined
[9] Institut für Quantenoptik,undefined
[10] Universität Ulm,undefined
[11] School of Physics,undefined
[12] University of Melbourne,undefined
[13] Parkville,undefined
[14] Laser Physics Centre,undefined
[15] Research School of Physics and Engineering,undefined
[16] Australian National University,undefined
[17] National Institutes for Quantum and Radiological Science and Technology,undefined
来源
Nature Communications | / 8卷
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摘要
Stimulated emission is the process fundamental to laser operation, thereby producing coherent photon output. Despite negatively charged nitrogen-vacancy (NV−) centres being discussed as a potential laser medium since the 1980s, there have been no definitive observations of stimulated emission from ensembles of NV− to date. Here we show both theoretical and experimental evidence for stimulated emission from NV− using light in the phonon sidebands around 700 nm. Furthermore, we show the transition from stimulated emission to photoionization as the stimulating laser wavelength is reduced from 700 to 620 nm. While lasing at the zero-phonon line is suppressed by ionization, our results open the possibility of diamond lasers based on NV− centres, tuneable over the phonon sideband. This broadens the applications of NV− magnetometers from single centre nanoscale sensors to a new generation of ultra-precise ensemble laser sensors, which exploit the contrast and signal amplification of a lasing system.
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