Gibble Lab Home Page

Publications

"Decoherence and Collisional Frequency Shifts of Trapped Bosons and Fermions," K. Gibble, Phys. Rev. Lett. 103, 113202 (2009).

"A quantum scattering interferometer," R. A. Hart, X. Xu, R. Legere, & K. Gibble, Nature 446, 892-895 (2007).
See Science and Editor's summary in Nature.

"Difference between a Photon’s Momentum and an Atom’s Recoil," K. Gibble, Phys. Rev. Lett. 97, 073002 (2006).
See Physics Review Focus and Laser Focus World .

"Locking lasers with large FM noise to high-Q cavities," L. Duan and K. Gibble, Optics Letters 30, 3317-3319 (2005).

"Phase variations in microwave cavities for atomic clocks," R. Li and K. Gibble, Metrologia 41, 376-386 (2004).

"Experiments in Fundamental Physics Scheduled and in Development for the ISS," C. Lammerzahl, G. Ahlers, N. Ashby, M. Barmatz, P. L. Biermann, H. Dittus, V. Dohm, R. Duncan, K. Gibble, J. Lipa, N. Lockerbie, N. Mulders, and C. Salomon, General Relativity and Gravitation 36, 615-649 (2004).

"Measurement and Cancellation of the Cold Collision Shift in an 87Rb Fountain Clock," C. Fertig and K. Gibble, Phys. Rev. Lett. 85, 1622-1625 (2000).
See Physics News Update and Science for some highlights.

"Laser-Cooled 87Rb Clock," C. Fertig and K. Gibble, IEEE Trans. Instr. Meas. 48, 520-523 (1999). (Demonstration of using the AC Zeeman shift to measure a cavity detuning.)

"Quantum Scattering in a Juggling Atomic Fountain," R. Legere and K. Gibble, Phys. Rev. Lett. 81, 5780 (1998).
Featured at PRFocus & in Physics World (Feb '99, p. 5).

"Prospects for Bose-Einstein Condensation of Cs," S. J. J. M. F. Kokkelmans, B. J. Verhaar, and K. Gibble, Phys. Rev. Lett. 81, 951-954 (1998).

"Prediction for Laser-Cooled Rb Clocks," S. J. J. M. F. Kokkelmans, B. J. Verhaar, K. Gibble, and D. J. Heinzen, Phys. Rev. A. 56, 4389 (1997).

"Collisional Effects in Cold Alkalis,” K. Gibble, in Proceeding of the Fifth Symposium on Frequency Standards and Metrology, J. C. Bergquist Ed., (World Scientific, Singapore, p. 66, 1996).

"Direct Observation of s-wave Atomic Collisions," Kurt Gibble, Seongsik Chang, Ronald Legere, Phys. Rev. Lett 75, 2666 (1995).

"Eliminating Cold-Collision Frequency Shifts," Kurt Gibble and Boudewijn J. Verhaar, Phys. Rev. A 52, 3370 (1995).

"Cold-collision Properties Derived from Frequency Shifts in a Cesium Fountain," Boudewijn J. Verhaar, Kurt Gibble, and Steven Chu, Phys. Rev. A 48, R3429 (1993).

"Laser-Cooled Cs Frequency Standard and a Measurement of the Frequency Shift due to Ultracold Collisions," Kurt Gibble and Steven Chu, Phys. Rev. Lett. 70, 1771 (1993).

"Future Slow-atom Frequency Standards," Kurt Gibble and Steven Chu, Metrol. 29, 201 (1992).

"Improved Magneto-optic Trapping in a Vapor Cell," Kurt E. Gibble, Steven Kasapi, and Steven Chu, Opt. Lett. 17, 526 (1992).

"Interatomic potentials from velocity-changing collision kernels," K. E. Gibble and J. Cooper, Phys. Rev. A 44, p. 5335 (1991).

"Scattering angle resolution in measurements of velocity-changing collision kernels," K. E. Gibble and J. Cooper, Phys. Rev. Lett. 67, p. 1936 (1991).

"Measurements of velocity-changing collision kernels," K. E. Gibble and A. Gallagher, Phys. Rev. A 43, p. 1366, (1991).

Conference Papers

"Distributed cavity phase shifts and microwave photon recoils," Fertig, C.; Ruoxin Li; Rees, J.I.; Gibble, K.; Proc. 2002 IEEE Freq. Contr. Symp., 29-31 May, pp. 469 -472 (2002).

"A juggling Rb fountain clock and a direct measurement of population differences," Fertig, C.; Rees, J.I.; Gibble, K.; Proc. 2001 IEEE Freq. Contr. Symp., 6-8 June, pp. 18 -21 (2001).

"RACE: laser-cooled Rb microgravity clock," Fertig, C.; Gibble, K.; Klipstein, B.; Maleki, L.; Seidel, D.; Thompson, R.; Proc. 2000 IEEE Freq. Contr. Symp., 7-9 June, pp. 676 -679 (2000).

"Laser-cooled Rb clock," Fertig, C.; Bouttier, J.; Gibble, K.; Proc. 2000 IEEE Freq. Contr. Symp., 7-9 June, pp. 680 -686 (2000).

"Laser-cooled Rb fountain clocks," Fertig, C.; Legere, R.; Suptitz, W.; Gibble, K.; Proc. Joint Meeting 1999 IEEE Freq. Contr. Symp. and European Freq. Time Forum, 13-16 April, 1, pp. 39 -42 (1999).

"Laser-cooled microgravity clocks," Fertig, C.; Gibble, K.; Klipstein, B.; Kohel, J.; Maleki, L.; Seidel, D.; Thompson, R.; Proc. Joint Meeting 1999 IEEE Freq. Contr. Symp. and European Freq. Time Forum, 13-16 April, 1, pp. 145 -147 (1999). Demonstrated using the AC Zeeman shift to measure the resonant frequency of a microwave cavity.

"Laser-cooled microgravity clocks," Gibble, K.; Proc. 1998 IEEE Freq. Contr. Symp., 27-29 May, pp. 41 -45 (1998).

"Laser-cooled Rb clocks," Fertig, C.; Legere, R.; Suptitz, W.; Gibble, K.; Proc. 1998 IEEE Freq. Contr. Symp., 27-29 May, pp. 18 -22 (1998).

"Laser-cooled Rb clocks," Fertig, C.; Legere, R.; Suptitz, W.; Gibble, K.; Proc. 1997 NASA/JPL Microgravity Fundamental Physics Workshop, May 7-9, 1997, NASA Document D-15677, pp. 54-58, (1998). This paper shows a non-destructive test for a diode laser's maximum output power.