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Showing results (31-40 of 42) with videos related to

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Physical Review Letters|December 13, 2006
Kilohertz-resolution spectroscopy of cold atoms with an optical frequency combT M Fortier, Y Le Coq, J E Stalnaker, et al.
Optics Letters|August 9, 2003
420-MHz Cr:forsterite femtosecond ring laser and continuum generation in the 1-2-micrometre rangeI Thomann, A Bartels, K L Corwin, et al.
Optics Letters|May 4, 2005
Stabilized frequency comb with a self-referenced femtosecond Cr:forsterite laserK Kim, B R Washburn, G Wilpers, et al.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control|February 2, 2008
Sub-systems for optical frequency measurements: application to the 282-nm (199)Hg(+) transition and the 657-nm Ca lineB Frech, J S Wells, C T Oates, et al.
Physical Review Letters|June 1, 2001
Absolute frequency measurements of the Hg+ and Ca optical clock transitions with a femtosecond laserT Udem, S A Diddams, K R Vogel, et al.
Physical Review Letters|March 21, 2008
Optical lattice induced light shifts in an yb atomic clockZ W Barber, J E Stalnaker, N D Lemke, et al.
Optics Letters|November 23, 2007
Direct comparison of two cold-atom-based optical frequency standards by using a femtosecond-laser combK R Vogel, S A Diddams, C W Oates, et al.
Science (New York, N.Y.)|July 14, 2001
An optical clock based on a single trapped 199Hg+ ionS A Diddams, T Udem, J C Bergquist, et al.
Physical Review Letters|May 7, 2003
Testing the stability of fundamental constants with the 199Hg+ single-ion optical clockS Bize, S A Diddams, U Tanaka, et al.
Physical Review Letters|August 16, 2006
Single-atom optical clock with high accuracyW H Oskay, S A Diddams, E A Donley, et al.
Pageof 5

Showing results (31-40 of 42) with videos related to

Sort By:
Pageof 5
Physical Review Letters|December 13, 2006
Kilohertz-resolution spectroscopy of cold atoms with an optical frequency combT M Fortier, Y Le Coq, J E Stalnaker, et al.
Optics Letters|August 9, 2003
420-MHz Cr:forsterite femtosecond ring laser and continuum generation in the 1-2-micrometre rangeI Thomann, A Bartels, K L Corwin, et al.
Optics Letters|May 4, 2005
Stabilized frequency comb with a self-referenced femtosecond Cr:forsterite laserK Kim, B R Washburn, G Wilpers, et al.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control|February 2, 2008
Sub-systems for optical frequency measurements: application to the 282-nm (199)Hg(+) transition and the 657-nm Ca lineB Frech, J S Wells, C T Oates, et al.
Physical Review Letters|June 1, 2001
Absolute frequency measurements of the Hg+ and Ca optical clock transitions with a femtosecond laserT Udem, S A Diddams, K R Vogel, et al.
Physical Review Letters|March 21, 2008
Optical lattice induced light shifts in an yb atomic clockZ W Barber, J E Stalnaker, N D Lemke, et al.
Optics Letters|November 23, 2007
Direct comparison of two cold-atom-based optical frequency standards by using a femtosecond-laser combK R Vogel, S A Diddams, C W Oates, et al.
Science (New York, N.Y.)|July 14, 2001
An optical clock based on a single trapped 199Hg+ ionS A Diddams, T Udem, J C Bergquist, et al.
Physical Review Letters|May 7, 2003
Testing the stability of fundamental constants with the 199Hg+ single-ion optical clockS Bize, S A Diddams, U Tanaka, et al.
Physical Review Letters|August 16, 2006
Single-atom optical clock with high accuracyW H Oskay, S A Diddams, E A Donley, et al.
Pageof 5