NewEvery arXiv paper, its researchers & institutions — mapped.
papers

Publications (26)

physics.optics2009

Optical frequency transfer via 146 km fiber link with 10^{-19} relative accuracy

G. Grosche, O. Terra, K. Predehl +5

physics.atom-ph2011

Remote frequency measurement of the 1S0-3P1 transition in laser cooled Mg-24

J. Friebe, M. Riedmann, T. Wübbena +9

physics.atom-ph2002

Photoassociation spectroscopy of cold calcium atoms

C. Degenhardt, T. Binnewies, G. Wilpers +4

physics.ins-det2017

1.5 $μ$m lasers with sub 10 mHz linewidth

D. G. Matei, T. Legero, S. Häfner +8

physics.optics2012

Providing 1E-16 short-term stability of a 1.5 μm laser to optical clocks

C. Hagemann, C. Grebing, T. Kessler +5

gr-qc2006

Optical Clocks in Space

S. Schiller, A. Goerlitz, A. Nevsky +18

physics.optics2016

A transportable optical lattice clock with $7\times10^{-17}$ uncertainty

S. B. Koller, J. Grotti, St. Vogt +5

gr-qc2017

Test of special relativity using a fiber network of optical clocks

P. Delva, J. Lodewyck, S. Bilicki +28

physics.atom-ph2015

Development of a strontium optical lattice clock for the SOC mission on the ISS

K. Bongs, Y. Singh, L. Smith +24

physics.atom-ph2014

A transportable strontium optical lattice clock

N. Poli, M. Schioppo, S. Vogt +4

physics.optics2016

Realization of a time-scale with an accurate optical lattice clock

C. Grebing, A. Al-Masoudi, S. Dörscher +7

physics.atom-ph2010

Hyper-Ramsey Spectroscopy of Optical Clock Transitions

V. I. Yudin, A. V. Taichenachev, C. W. Oates +6

physics.atom-ph2015

A clock network for geodesy and fundamental science

C. Lisdat, G. Grosche, N. Quintin +32

physics.optics2009

Compensation of Field-Induced Frequency Shifts in Ramsey Spectroscopy of Optical Clock Transitions

A. V. Taichenachev, V. I. Yudin, C. W. Oates +6

physics.atom-ph2009

Collisional losses, decoherence, and frequency shifts in optical lattice clocks with bosons

Ch. Lisdat, J. S. R. Vellore Winfred, T. Middelmann +2

physics.atom-ph2011

The 87-Sr optical frequency standard at PTB

St. Falke, H. Schnatz, J. S. R. Vellore Winfred +8

physics.atom-ph2016

Development of a strontium optical lattice clock for the SOC mission on the ISS

S. Origlia, S. Schiller, M. S. Pramod +25

physics.atom-ph2002

An Optical Clock with Ultracold Neutral Atoms

G. Wilpers, T. Binnewies, C. Degenhardt +3

physics.atom-ph2008

The stability of an optical clock laser transferred to the interrogation oscillator for a Cs fountain

B. Lipphardt, G. Grosche, U. Sterr +3

physics.optics2008

Measurement noise floor for a long-distance optical carrier transmission via fiber

G. Grosche, O. Terra, K. Predehl +6

physics.optics2008

Interrogation laser for a strontium lattice clock

T. Legero, Ch. Lisdat, J. S. R. Vellore Winfred +4

physics.optics2012

A sub-40 mHz linewidth laser based on a silicon single-crystal optical cavity

T. Kessler, C. Hagemann, C. Grebing +6

physics.atom-ph2004

The optical calcium frequency standards of PTB and NIST

U. Sterr, C. Degenhardt, H. Stoehr +7

physics.atom-ph2001

Doppler cooling and trapping on forbidden transitions

T. Binnewies, G. Wilpers, U. Sterr +5

physics.optics2017

An ultrastable silicon cavity in a continuously operating closed-cycle cryostat at 4 K

W. Zhang, J. M. Robinson, L. Sonderhouse +8

quant-ph2012

The Space Optical Clocks Project: Development of high-performance transportable and breadboard optical clocks and advanced subsystems

S. Schiller, A. Görlitz, A. Nevsky +28