Jeffrey Livas scite author profile

We describe a class of techniques whereby a laser frequency can be stabilized to a fixed optical cavity resonance with an adjustable offset, providing a wide tuning range for the central frequency. These techniques require only minor modifications to the standard Pound-Drever-Hall locking techniques and have the advantage of not altering the intrinsic stability of the frequency reference. We discuss the expected performance and limitations of these techniques and present a laboratory investigation in which both the sideband techniques and the standard, on-tunable Pound-Drever- Hall technique reached the 100Hz/square root(Hz) level.

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High sensitivity optically preamplified direct detection DPSK receiver with active delay-line stabilization

Swanson

Livas

Bondurant

1994

IEEE Photon. Technol. Lett.

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Characterization of photoreceivers for LISA

Cervantes¹,

Livas²,

Silverberg³

et al. 2011

Class. Quantum Grav.

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LISA will use quadrant photoreceivers as front-end devices for the phasemeter measuring the motion of drag-free test masses in both angular orientation and separation. We have set up a laboratory testbed for the characterization of photoreceivers. Some of the limiting noise sources have been identified and their contribution has been either measured or derived from the measured data. We have built a photoreceiver with a 0.5 mm diameter quadrant photodiode with an equivalent input current noise of better than 1.8 pA Hz −1/2 below 20 MHz and a 3 dB bandwidth of 34 MHz.

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Laser Ranging for Gravitational, Lunar and Planetary Science

Merkowitz

Dabney

Livas

et al. 2007

Int. J. Mod. Phys. D

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More precise lunar and Martian ranging will enable unprecedented tests of Einstein's theory of general relativity as well as lunar and planetary science. NASA is currently planning several missions to return to the Moon, and it is natural to consider if precision laser ranging instruments should be included. New advanced retroreflector arrays at carefully chosen landing sites would have an immediate positive impact on lunar and gravitational studies. Laser transponders are currently being developed that may offer an advantage over passive ranging, and could be adapted for use on Mars and other distant objects. Precision ranging capability can also be combined with optical communications for an extremely versatile instrument. In this paper we discuss the science that can be gained by improved lunar and Martian ranging along with several technologies that can be used for this purpose.

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Jeffrey Livas

Laser frequency stabilization and control through offset sideband locking to optical cavities

High sensitivity optically preamplified direct detection DPSK receiver with active delay-line stabilization

Characterization of photoreceivers for LISA

Laser Ranging for Gravitational, Lunar and Planetary Science

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