Carson Mok

Publications

Demonstration of improved sensitivity of echo interferometers to gravitational acceleration, C. Mok, B. Barrett, A. Carew, R. Berthiaume, S. Beattie, and A. Kumarakrishnan, Physical Review A 88, 023614 (2013)

Design and Construction of an Efficient Electro-Optic Modulator for Laser Spectroscopy, C. Mok, M. Weel, E. Rotberg, and A. Kumarakrishnan, Canadian Journal of Physics 84, 775 (2006).

Resource Letter for Advanced Laboratory Courses on Laser Spectroscopy and Atom Trapping, S. Winter, H. Beica, C. Mok, B. Barrett, R. Berthiaume, A. Vorozcovs, F. Yachoua, N. Afkhami-Jeddi, R. Marants, M. Aggarwal, and A. Kumarakrishnan

Time Domain Interferometry With Laser Cooled Atoms, B. Barrett, I. Chan, C. Mok, A. Carew, I. Yavin, (McMaster U.), A. Kumarakrishnan (York University), S, B. Cahn (Yale U.) and T. Sleator (NYU), Advances in Atomic, Molecular and Optical Physics Volume 60 Chapter 3, Elsevier (2011) (Edited by E. Arimondo, P.R. Berman and C.C. Lin)

Atom-Interferometric Studies of Light Scattering.  S. Beattie, B. Barrett, I. Chan, C. Mok, I. Yavin (Princeton University) and A. Kumarakrishnan. Physical Review A 80, 013618 (2009).>

Technique for Measuring Atomic Recoil Frequency  Using Coherence Functions.  S. Beattie, B. Barrett, I. Chan, C. Mok, I. Yavin (Princeton University), and A. Kumarakrishnan.  Physical Review A 79, 021605 (R) (2009).

Properties of Magnetic Sublevel Coherences for Precision Measurements, I. Chan, A. Andreyuk, S. Beattie, B. Barrett, C. Mok, M. Weel, and A. Kumarakrishnan, Physical Review A 78, 033418 (2008).

Influence of Spontaneous Emission on a Single-State Atom Interferometer, S. Beattie, B. Barrett, M. Weel, I. Chan, C. Mok, S. B. Cahn (Yale University), and A. Kumarakrishnan, Physical Review A 77, 013610 (2008).

Tools for Laser Spectroscopy: The Design and Construction of a Faraday Isolator, S. Winter, C. Mok, and A. Kumarakrishnan, Canadian Journal of Physics 84, 845 (2006).

Posters and Talks

Measurements of gravitational acceleration from an echo atom interferometer, C. Mok, A. Carew, B. Barrett, R. Berthiaume and A. Kumarakrishnan, DAMOP, Orange County, California, June 2012.

Atom trapping laboratory for upper level undergraduate students, C. Mok, S. Winter, H. Beica, B. Barrett, R. Berthiaume, A. Vorozcovs, F. Yachoua, N. Afkhami-Jeddi, R. Marants, M. Aggarwal and A. Kumarakrishnan, DAMOP, Orange County, California, June 2012.

Precision Atom Interferometric Measurement of Gravitational Acceleration, C. Mok, R. Berthiaume, S. Beattie, B. Barrett, I. Chan, and A. Kumarakrishnan, DAMOP, Houston, May 2010.

Progress on Measurements of Gravitational Acceleration Using a Single State Atom Interferometer, C. Mok, S. Beattie, B. Barrett, I. Chan, and A. Kumarakrishnan, CAP Congress, Quebec City, June 2008.

Atom Trapping Laboratory For Upper Level Undergraduates, C. Mok, S. Winter, B. Barrett, V. Popovici, R. Berthiaume, M. Aggarwal, M. F. Yachoua, and A. Kumarakrishnan, CAP Congress, Quebec City, June 2008.

Measurement of Gravitational Acceleration Using a Single State Atom Interferometer, C. Mok, S. Beattie, I. Chan, and A. Kumarakrishnan, DAMOP, Calgary, June 2007.

Design and Construction of an Efficient Electro-Optic Modulator for Laser Spectroscopy, C. Mok, W. Weel, E. Rotberg, and A. Kumarakrishnan, CUPC, London, October 2005.

A Home-Built Electro-Optic Phase Modulator for Laser Frequency Stabilization, C. Mok, M. Weel, S. Beattie, and A. Kumarakrishnan, CUPC, Victoria, November 2004.

Precise determination of atomic g-factor ratios from a dual isotope magneto-optical trap, I. Chan, B. Barrett, A. Carew, C. Mok, and A. Kumarakrishnan, DAMOP, Orange County, California, June 2012.

Active Feedback System for Laser Intensity Stabilization, E. Davidson, I. Chan, B. Barrett, C. Mok, A. Carew and A. Kumarakrishnan, CUPC, Halifix, October (2010)

New Experiments in Atomic and Laser Physics for Undergraduate Students, H. Beica, B. Barrett, C. Mok, A. Vorozcovs, A. Sibilia, H. Morrison, and A. Kumarakrishnan, CUPC, Halifax, October (2010)

Progress Towards a Precision Measurement of Atomic Recoil Frequency Using an Echo Interferometer, B. Barrett, A. Carew, S. Beattie, I. Chan, C. Mok, R. Berthiaume, and A. Kumarakrishnan, DAMOP, Houston, May 2010.

Simulations of a Multi-Level Atom Interferometer, B. Barrett, I. Chan, C. Mok, A. Carew, R. Berthiaume, and A. Kumarakrishnan (York University), I. Yavin (New York University), DAMOP, Houston, May 2010.

Precision Measurements of Atomic g Factor Ratios Using a Dual Species MOT, I. Chan, R. Berthiaume, B. Barrett, C. Mok. A. Carew, and A. Kumarakrishnan, DAMOP, Houston, May 2010.

Realization of an Inexpensive Multi-Channel Frequency Synthesizer, A. Carew, R. Berthiaume, C. Mok, I. Chan, B. Barrett, M. Weel, and A. Kumarakrishnan, DAMOP, Houston, May 2010.

Radio Frequency Power Stabilization by Active Feedback, K. Reiter, C. Mok, S. Beattie, I. Chan, B. Barrett, E. Davidson, R. Berthiaume and A. Kumarakrishnan, CUPC, Edmonton, October (2009).

Atom Interferometric Studies of Light Scattering, S. Beattie, B. Barrett, I. Chan, C. Mok, I. Yavin (Princeton University), and A. Kumarakrishnan, CAP Congress, Moncton, June 2009.

Properties of Magnetic Sublevel Coherences for Precision Measurements, I. Chan, S. Beattie, B. Barrett, C. Mok, and A. Kumarakrishnan, CAP Congress, Moncton, June 2009.

A New Technique for Measuring Atomic Recoil Frequency Using Coherence Functions, S. Beattie, B. Barrett, I. Chan, C. Mok, I. Yavin (Princeton University), and A. Kumarakrishnan, DAMOP, Charlottesville, May 2009.

Analysis of Time Domain Measurements of Atomic Recoil Frequency in Laser Cooled Rubidium Gas, K. Anosov, B. Barrett, M. Weel, S. Beattie, C. Mok, I. Chan, I. Yavin (Princeton University), and A. Kumarakrishnan, CUPC, Toronto, October 2008.

Numerical Simulations of a Single State Atom Interferometer, B. Barrett, C. Mok, S. Beattie, and A. Kumarakrishnan, CAP Congress, Quebec City, June 2008.

Improving the Precision Measurement of the Atomic Recoil Frequency Using a Single-State Time-Domain Atom Interferometer, B. Barrett, S. Beattie, I. Yavin (Princeton University), C. Mok, I. Chan, and A. Kumarakrishnan, CAP Congress, Quebec City, June 2008.

Effect of Spontaneous Emission on Matter Wave Interference, S. Beattie, B. Barrett, M. Weel, I. Chan, C. Mok, S. B. Cahn (Yale University), and A. Kumarakrishnan, CAP Congress, Quebec City, June 2008.

Influence of Spontaneous Emission on a Single-State Atom Interferometer, S.Beattie, B. Barrett, M. Weel, I. Chan, C. Mok (York University), S. B. Cahn (Yale University), A. Kumarakrishnan (York University), DAMOP, State College, May 2008.

Monte Carlo Wavefunction Simulation of a Matter Wave Interferometer, B. Barrett, C. Mok, S. Beattie, and A. Kumarakrishnan, DAMOP, State College, May 2008.

Atom Trapping Laboratory for Upper Level Undergraduates, S. Winter, B. Barrett, C. Mok, V. Popovici, R. Berthiaume, M. Aggarwal, F. Yachoua, and A. Kumarakrishnan, CUPC, Vancouver, October 2007.

An Inexpensive Grating Stabilized Diode Laser for Laser Spectroscopy, V. Popovici, E. Paradis, C. Mok, B. Barrett, and A. Kumarakrishnan, CUPC, Fredericton, October 2006.

Tools for Laser Spectroscopy: The Design and Construction of a Faraday Isolator. S. Winter, C. Mok, and A. Kumarakrishnan, CUPC, Fredericton, October 2006.

Tools for Laser Spectroscopy: Design and Construction of a Faraday Isolator, S. Winter, C. Mok, and A. Kumarakrishnan, CUPC, London, October 2005.

Back to Graduate Students