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Items: 1 to 20 of 154

1.

Optical frequency metrology.

Udem T, Holzwarth R, Hänsch TW.

Nature. 2002 Mar 14;416(6877):233-7.

PMID:
11894107
2.

Passion for precision.

Hänsch TW.

Chemphyschem. 2006 Jun 12;7(6):1170-87. Erratum in: Chemphyschem. 2006 Jul 17;7(7):1402.

PMID:
16637090
3.

An optical clock based on a single trapped 199Hg+ ion.

Diddams SA, Udem T, Bergquist JC, Curtis EA, Drullinger RE, Hollberg L, Itano WM, Lee WD, Oates CW, Vogel KR, Wineland DJ.

Science. 2001 Aug 3;293(5531):825-8. Epub 2001 Jul 12.

5.

An optical lattice clock.

Takamoto M, Hong FL, Higashi R, Katori H.

Nature. 2005 May 19;435(7040):321-4.

PMID:
15902252
6.

A frequency comb in the extreme ultraviolet.

Gohle C, Udem T, Herrmann M, Rauschenberger J, Holzwarth R, Schuessler HA, Krausz F, Hänsch TW.

Nature. 2005 Jul 14;436(7048):234-7.

PMID:
16015324
7.

Phase-locked widely tunable optical single-frequency generator based on a femtosecond comb.

Schibli TR, Minoshima K, Hong EL, Inaba H, Bitou Y, Onae A, Matsumoto H.

Opt Lett. 2005 Sep 1;30(17):2323-5.

PMID:
16190458
8.

The Brazilian time and frequency atomic standards program.

Ahmed M, Magalhães DV, Bebeachibuli A, Müller ST, Alves RF, Ortega TA, Weiner J, Bagnato VS.

An Acad Bras Cienc. 2008 Jun;80(2):217-52.

9.

Highly coherent spectroscopy of ultracold atoms and molecules in optical lattices.

Zelevinsky T, Blatt S, Boyd MM, Campbell GK, Ludlow AD, Ye J.

Chemphyschem. 2008 Feb 22;9(3):375-82. doi: 10.1002/cphc.200700713.

PMID:
18275047
10.

Molecular fingerprinting with the resolved modes of a femtosecond laser frequency comb.

Diddams SA, Hollberg L, Mbele V.

Nature. 2007 Feb 8;445(7128):627-30.

PMID:
17287805
11.

High-resolution spectroscopy with a femtosecond laser frequency comb.

Gerginov V, Tanner CE, Diddams SA, Bartels A, Hollberg L.

Opt Lett. 2005 Jul 1;30(13):1734-6.

PMID:
16075554
12.

Precision spectroscopy of hydrogen and femtosecond laser frequency combs.

Hänsch TW, Alnis J, Fendel P, Fischer M, Gohle C, Herrmann M, Holzwarth R, Kolachevsky N, Udem T, Zimmermann M.

Philos Trans A Math Phys Eng Sci. 2005 Sep 15;363(1834):2155-63. Review.

13.

Optical atomic coherence at the 1-second time scale.

Boyd MM, Zelevinsky T, Ludlow AD, Foreman SM, Blatt S, Ido T, Ye J.

Science. 2006 Dec 1;314(5804):1430-3.

14.

Frequency ratio of Al+ and Hg+ single-ion optical clocks; metrology at the 17th decimal place.

Rosenband T, Hume DB, Schmidt PO, Chou CW, Brusch A, Lorini L, Oskay WH, Drullinger RE, Fortier TM, Stalnaker JE, Diddams SA, Swann WC, Newbury NR, Itano WM, Wineland DJ, Bergquist JC.

Science. 2008 Mar 28;319(5871):1808-12. doi: 10.1126/science.1154622. Epub 2008 Mar 6.

15.

A wide-range optical frequency generator based on the frequency comb of a femtosecond laser.

Kim YJ, Jin J, Kim Y, Hyun S, Kim SW.

Opt Express. 2008 Jan 7;16(1):258-64.

PMID:
18521156
16.

United time-frequency spectroscopy for dynamics and global structure.

Marian A, Stowe MC, Lawall JR, Felinto D, Ye J.

Science. 2004 Dec 17;306(5704):2063-8. Epub 2004 Nov 18.

17.
18.

When should we change the definition of the second?

Gill P.

Philos Trans A Math Phys Eng Sci. 2011 Oct 28;369(1953):4109-30. doi: 10.1098/rsta.2011.0237.

19.

Deep-ultraviolet quantum interference metrology with ultrashort laser pulses.

Witte S, Zinkstok RT, Ubachs W, Hogervorst W, Eikema KS.

Science. 2005 Jan 21;307(5708):400-3.

20.

Laser spectroscopy of trapped atomic ions.

Itano WM, Bergquist JC, Wineland DJ.

Science. 1987 Aug 7;237(4815):612-7.

PMID:
17758560

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