Publications

Displaying 26 - 50 of 50

Sympathetic Ground State Cooling and Time-dilation Shifts in an 27Al+ Optical Clock

February 3, 2017

Author(s)

Jwo-Sy Chen, Samuel M. Brewer, David B. Hume, Chin-Wen Chou, David J. Wineland, David R. Leibrandt

We report Raman sideband cooling of 25Mg+ to sympathetically cool the secular modes of motion in a 25Mg+-27Al+ two-ion pair to near the three-dimensional (3D) ground state. The evolution of the Fock state distributions during the cooling process is studied

Trapped-ion optical atomic clocks at the quantum limits

January 31, 2017

Author(s)

David R. Leibrandt, Samuel M. Brewer, Jwo-Sy Chen, Aaron M. Hankin, David B. Hume, David J. Wineland, Chin-Wen Chou

Frequency and its inverse, time, are the most accurately measured quantities. Historically, improvements in the accuracy of clocks have enabled advances in navigation, communication, and science. Since 1967, the definition of the SI second has been based

Probing beyond the laser coherence time in optical clock comparisons

March 30, 2016

Author(s)

David B. Hume, David R. Leibrandt

We develop protocols that circumvent the laser noise limit in optical clock comparisons by synchronous probing of two clocks using phase-locked local oscillators. This allows for probe times longer than the laser coherence time, avoids the Dick effect, and

An open source digital servo for atomic, molecular, and optical physics experiments

December 30, 2015

Author(s)

David R. Leibrandt, Jason Heidecker

We describe a general purpose digital servo optimized for feedback control of lasers in atomic, molecular, and optical (AMO) physics experiments. The servo is capable of feedback bandwidths up to roughly 1~MHz; loop filter shapes up to fifth order

Laser frequency stabilization based on steady-state spectral-hole burning in Eu3+:Y2SiO5

June 23, 2015

Author(s)

Shon M. Cook, Till P. Rosenband, David R. Leibrandt

We present and analyze a method of laser frequency stabilization via steady-state patterns of spectral-holes in Eu3+:Y2SiO5. Three regions of holes are created, spaced in frequency by the ground state hyperfine splittings of 151Eu3+ . The absorption

Exponential scaling of clock stability with atom number

March 28, 2015

Author(s)

Till P. Rosenband, David R. Leibrandt

In trapped-atom clocks, the primary source of decoherence is often the phase noise of the oscillator. In this case, it is theoretically possible to derive exponential performance gains by combining several atomic ensembles. For example, M ensembles of N

Absolute and relative stability of an optical frequency reference based on spectral hole burning in Eu 3+ :Y 2 SiO 5

December 6, 2013

Author(s)

David R. Leibrandt, M Thorpe, Chin-Wen Chou, Tara M. Fortier, Scott A. Diddams, Till P. Rosenband

We present four frequency comparison measurements designed to investigate the performance of an optical frequency reference based on spectral hole burning in Eu$ 3+:Y 2SiO 5. The first frequency comparison, between a single unperturbed spectral hole and a

Shifts of optical frequency references based on spectral hole burning in Eu3+:Y2SiO5

March 6, 2013

Author(s)

David R. Leibrandt, Michael J. Thorpe, Till P. Rosenband

Spectral hole burning laser frequency stabilization in Eu3+:Y2SiO5 is performed in a cryogenic environment with high temperature stability and low levels of vibration. Several properties of Eu3+:Y2SiO5 spectral holes are measured, including magnetic field

Cavity-stabilized laser with acceleration sensitivity below 10 -12 /g -1

February 21, 2013

Author(s)

David R. Leibrandt, James C. Bergquist, Till P. Rosenband

We characterize the frequency-sensitivity of a cavity-stabilized laser to inertial forces and temperature fluctuations, and perform real-time feed-forward to correct for these sources of noise. We measure the sensitivity of the cavity to linear

Trapped-Ion State Detection through Coherent Motion

December 9, 2011

Author(s)

Till P. Rosenband, David Hume, Chin-Wen Chou, David R. Leibrandt, Michael J. Thorpe, David J. Wineland

Coherent control of trapped atomic ions has led to several recent advances in quantum information processing 1 and precision spectroscopy 2. A basic requirement for these and other quantum-metrology experiments is the ability to detect the state of an

Field-test of a robust, portable, frequency-stable laser

May 10, 2011

Author(s)

David R. Leibrandt, Michael J. Thorpe, James C. Bergquist, Till P. Rosenband

We operate a frequency-stable laser in a non-laboratory environment where the test platform is a passenger vehicle. We measure the acceleration experienced by the laser and actively correct for it to achieve a system acceleration sensitivity of df/f = 11(2

Spherical Reference Cavities for Ultra-Stable Lasers in Non-Laboratory Environments

February 14, 2011

Author(s)

David R. Leibrandt, Michael J. Thorpe, Mark Notcutt, Robert E. Drullinger, Till P. Rosenband, James C. Bergquist

We present an ultra-stable optical cavity design that is insensitive to both vibrations and orientation. The design is based on a spherical cavity spacer which is held rigidly at two points on a diameter of the sphere. Coupling of the support forces to the

Measurement and real-time cancellation of vibration-induced phase noise in a cavity-stabilized laser

August 30, 2010

Author(s)

Michael J. Thorpe, David R. Leibrandt, Tara M. Fortier, Till P. Rosenband

We demonstrate a method to measure and actively reduce the coupling of vibrations to the phase noise of a cavity-stabilized laser. This method uses the vibration noise of the laboratory environment rather than active drive to perturb the optical cavity

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