A phase-modulated laser system of ultra-low phase noise for compact atom interferometers

A compact and robust laser system is essential for mobile atom interferometers. Phase modulation can provide the two necessary phase-coherent frequencies without sophisticated phase-locking between two different lasers. However, the additional laser frequencies generated can perturb the atom interfe...

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Published in	Journal of the Korean Physical Society Vol. 67; no. 2; pp. 318 - 322
Main Authors	Lee, Ki-Se, Kim, Jaewan, Lee, Sang-Bum, Park, Sang Eon, Kwon, Taek Yong
Format	Journal Article
Language	English
Published	Seoul The Korean Physical Society 01.07.2015 한국물리학회
Subjects	Mathematical and Computational Physics Particle and Nuclear Physics Physics Physics and Astronomy Theoretical 물리학 Optical phase-lock Atom interferometer Phase modulation
Online Access	Get full text
ISSN	0374-4884 1976-8524
DOI	10.3938/jkps.67.318

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Abstract	A compact and robust laser system is essential for mobile atom interferometers. Phase modulation can provide the two necessary phase-coherent frequencies without sophisticated phase-locking between two different lasers. However, the additional laser frequencies generated can perturb the atom interferometer. In this article, we report on a novel method to produce a single high-power laser beam composed of two phase-coherent sidebands without the perturbing carrier mode. Light from a diode laser is phase-modulated by using a fiber-coupled electro-optic modulator driven at 3.4 GHz and passes through a Fabry-Perot cavity with a 6.8 GHz free spectral range. The cavity filters the carrier mode to leave the two first-order sidebands for the two-photon Raman transition between the two hyperfine ground states of 87 Rb. The laser beam is then fed to a single tapered amplifier, and the two sidebands are both amplified without mode competition. The phase noise is lower than that of a state-of-the-art optically phase-locked external-cavity diode laser (−135 dBrad 2 /Hz at 10 kHz) at frequencies above 10 Hz. This technique can be used in all-fiber-based laser systems for future mobile atom interferometers.
AbstractList	A compact and robust laser system is essential for mobile atom interferometers. Phase modulation can provide the two necessary phase-coherent frequencies without sophisticated phase-locking between two different lasers. However, the additional laser frequencies generated can perturb the atom interferometer. In this article, we report on a novel method to produce a single high-power laser beam composed of two phase-coherent sidebands without the perturbing carrier mode. Light from a diode laser is phase-modulated by using a fiber-coupled electro-optic modulator driven at 3.4 GHz and passes through a Fabry-Perot cavity with a 6.8 GHz free spectral range. The cavity filters the carrier mode to leave the two first-order sidebands for the two-photon Raman transition between the two hyperfine ground states of 87 Rb. The laser beam is then fed to a single tapered amplifier, and the two sidebands are both amplified without mode competition. The phase noise is lower than that of a state-of-the-art optically phase-locked external-cavity diode laser (−135 dBrad 2 /Hz at 10 kHz) at frequencies above 10 Hz. This technique can be used in all-fiber-based laser systems for future mobile atom interferometers. A compact and robust laser system is essential for mobile atom interferometers. Phase modulation can provide the two necessary phase-coherent frequencies without sophisticated phase-locking between two different lasers. However, the additional laser frequencies generated can perturb the atom interferometer. In this article, we report on a novel method to produce a single high-power laser beam composed of two phase-coherent sidebands without the perturbing carrier mode. Light from a diode laser is phase-modulated by using a fiber-coupled electro-optic modulator driven at 3.4 GHz and passes through a Fabry-Perot cavity with a 6.8 GHz free spectral range. The cavity filters the carrier mode to leave the two first-order sidebands for the two-photon Raman transition between the two hyperfine ground states of 87Rb. The laser beam is then fed to a single tapered amplifier, and the two sidebands are both amplified without mode competition. The phase noise is lower than that of a state-of-the-art optically phase-locked external-cavity diode laser (-135 dBrad2/Hz at 10 kHz) at frequencies above 10 Hz. This technique can be used in all-fiber-based laser systems for future mobile atom interferometers. KCI Citation Count: 2
Author	Kim, Jaewan Lee, Ki-Se Park, Sang Eon Lee, Sang-Bum Kwon, Taek Yong
Author_xml	– sequence: 1 givenname: Ki-Se surname: Lee fullname: Lee, Ki-Se organization: Department of Physics, Myongji University – sequence: 2 givenname: Jaewan surname: Kim fullname: Kim, Jaewan email: jwkim@mju.ac.kr organization: Department of Physics, Myongji University – sequence: 3 givenname: Sang-Bum surname: Lee fullname: Lee, Sang-Bum organization: Korea Research Institute of Standards and Science – sequence: 4 givenname: Sang Eon surname: Park fullname: Park, Sang Eon organization: Korea Research Institute of Standards and Science – sequence: 5 givenname: Taek Yong surname: Kwon fullname: Kwon, Taek Yong organization: Korea Research Institute of Standards and Science
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Cites_doi	10.1103/PhysRevA.86.033605 10.1038/ncomms1479 10.1002/j.2161-4296.2005.tb01726.x 10.1088/1367-2630/13/6/065025 10.1007/s00340-006-2420-x 10.1007/s10686-008-9125-6 10.1007/s00340-010-4082-y 10.1119/1.4867376 10.1007/s00340-008-3088-1 10.1029/2003GL018250 10.1007/s00340-013-5629-5 10.1364/OE.18.018744 10.1007/s00340-009-3675-9 10.1103/PhysRevLett.78.2046 10.1007/s10686-008-9118-5 10.1103/PhysRevLett.67.181 10.1190/1.1441723 10.1088/0026-1394/38/1/4 10.1016/j.optcom.2008.11.055 10.1103/PhysRevA.65.033608 10.1103/PhysRevA.80.063604 10.1007/s00340-006-2266-2
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Snippet	A compact and robust laser system is essential for mobile atom interferometers. Phase modulation can provide the two necessary phase-coherent frequencies...
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Title	A phase-modulated laser system of ultra-low phase noise for compact atom interferometers
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ispartofPNX	Journal of the Korean Physical Society, 2015, 67(2), , pp.318-322
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