Alexander Andreyuk

Publications

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).

A Calculation of the Time of Flight Distribution of Trapped Atoms, I. Yavin, M. Weel, A. Andreyuk, and A. Kumarakrishnan, American Journal of Physics 70, 149 (2002).

Posters and Talks

Measurement of Temperature and Zeeman Shift Using Magnetic Sublevel Coherences In Trapped Rb Atoms, A. Andreyuk, M. Weel, A. Vorozcovs, and A. Kumarakrishnan, CAP Congress, Charlottetown, June 2003.

Measurement of Temperature and Zeeman Shift Using Magnetic Sublevel Coherences In Trapped Rb Atoms, A. Andreyuk, M. Weel, A. Vorozcovs, and A. Kumarakrishnan, Fifth Annual Cross-Border Workshop on Laser Science, Waterloo, May 2003.

Evolution of Zeeman Coherences In the Presence of Magnetic Fields, A. Andreyuk, M. Weel, and A. Kumarakrishnan, DAMOP, London, May 2001.

Precise Measurements of Atomic g Factor Ratios Using Trapped Rb Atoms, I. Chan, M. Weel, S. Beattie, E. Rotberg, A. Vorozcovs, A. Andreyuk, and A. Kumarakrishnan, CAP Congress, Vancouver, June 2005.

Precise Measurements of Atomic g Factor Ratios Using Trapped Rb Atoms, I. Chan, M. Weel, S. Beattie, E. Rotberg, A. Vorozcovs, A. Andreyuk, and A. Kumarakrishnan, DAMOP, Lincoln, May 2005.

Measurements of Temperature and New Measurement of Zeeman Shift In Trapped Rb Atoms, I. Chan, A. Andreyuk, M. Weel, S. Beattie, A. Vorozcovs, and A. Kumarakrishnan, Photonics Research Ontario, Student Forum, Ottawa, September 2004.

Measurements of Temperature and the Zeeman Shift of Trapped Rb Atoms , I. Chan, A. Andreyuk, M. Weel, S. Beattie, A. Vorozcovs, and A. Kumarakrishnan, DAMOP, Tucson, May 2004.

Probing Gravity and the Mechanism of Laser Cooling Using a Magneto-Optical Trap, A.Vorozcovs, M.Weel, A.Andreyuk, and A.Kumarakrishnan, CUPC, Halifax, October 2002.

Observation of Ground State Ramsey Fringes - A Measurement of Atomic Recoil In the Frequency Domain, M. Weel, A. Andreyuk, and A. Kumarakrishnan, ICAP, Cambridge, July 2002.

A Transparent Calculation of the Time of Flight Distribution of Trapped Atoms, I.Yavin, M. Weel, A. Andreyuk, and A. Kumarakrishnan, ICAP, Cambridge, July 2002.

A Calculation of the Time of Flight Distribution of Trapped Atoms, I.Yavin, M. Weel, A. Andreyuk, and A. Kumarakrishnan, CUPC, Winnipeg, November 2001.

A High Speed Modulated Retro-Reflector for Lasers Based on an Acousto-Optic Modulator, G.Spirou, I.Yavin, M.Weel, T.Mikaelian, A.Vorozcovs, A.Andreyuk, and A.Kumarakrishnan (York University), P. R. Battle, and R.C.Swanson, (AdvR Inc.), CUPC, Winnipeg, November 2001.

Simulations of a Simplified Ioffe Trap for Realizing Bose-Einstein Condensation, T. Mikaelian, M. Weel, G. Spirou, A. Vorozcovs, A. Andreyuk, and A. Kumarakrishnan, DAMOP, London, May 2001.

A High Speed Amplitude Modulated Retro-Reflector for Lasers, G. Spirou, T.Mikaelian, M. Weel, A.Vorozcovs, A. Andreyuk, A. Kumarakrishnan (York University), P.R. Battle, and R. C. Swanson (AdvR Inc.), DAMOP, London, May 2001.

High-Precision Shutter Control of a CCD Camera for Imaging Clouds of Ultra-Cold Atoms, A. Vorozcovs, M. Weel, G. Spirou, T. Mikaelian, A. Andreyuk, and A. Kumarakrishnan, CUPC, Quebec City, November 2000.

Locking Lasers to Trap Atoms, M. Weel, G. Spirou, A. Vorozcovs, T. Mikaelian, A. Andreyuk, and A. Kumarakrishnan, CUPC, Quebec City, November 2000.

Numerical Simulations of a Simplified Ioffe Trap for Realizing Bose-Einstein Condensation, T. Mikaelian, M. Weel, G. Spirou, A. Vorozcovs, A. Andreyuk, and A. Kumarakrishnan, CUPC, Quebec City, November 2000.

A High Speed Modulated Retro-Reflector for Lasers, G. Spirou, T.Mikaelian, M. Weel, A.Vorozcovs, A. Andreyuk, A. Kumarakrishnan, (York University), P. R. Battle, and R. C. Swanson (AdvR Inc.), CUPC, Quebec City, November 2000.

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