Sub-femtosecond absolute timing jitter with a 10 GHz hybrid photonic-microwave oscillator

Tara M. Fortier; Craig W. Nelson; Archita Hati; Franklyn J. Quinlan; Jennifer A. Taylor; Haifeng (. Jiang; Chin-Wen Chou; Till P. Rosenband; Nathan D. Lemke; Andrew D. Ludlow; David A. Howe; Christopher W. Oates; Scott A. Diddams

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PUBLICATIONS

Sub-femtosecond absolute timing jitter with a 10 GHz hybrid photonic-microwave oscillator

Published

June 7, 2012

Author(s)

Tara M. Fortier, Craig W. Nelson, Archita Hati, Franklyn J. Quinlan, Jennifer A. Taylor, Haifeng (. Jiang, Chin-Wen Chou, Till P. Rosenband, Nathan D. Lemke, Andrew D. Ludlow, David A. Howe, Christopher W. Oates, Scott A. Diddams

Abstract

We present an optical-electronic approach to generating microwave signals with high spectral purity. By overcoming shot noise and operating near fundamental thermal limits, we demonstrate 10 GHz signals that have timing deviation from an ideal periodic sine wave of only 4 parts per million even after integrating the noise over 10 billion cycles.

Citation

Applied Physics Letters

Volume

100

Pub Type

Journals

Keywords

microwave generation, optical frequency comb, phase noise

Physics

Citation

Fortier, T. , Nelson, C. , Hati, A. , Quinlan, F. , Taylor, J. , Jiang, H. , Chou, C. , Rosenband, T. , Lemke, N. , Ludlow, A. , Howe, D. , Oates, C. and Diddams, S. (2012), Sub-femtosecond absolute timing jitter with a 10 GHz hybrid photonic-microwave oscillator, Applied Physics Letters (Accessed April 18, 2024)

Created June 7, 2012, Updated February 19, 2017

Sub-femtosecond absolute timing jitter with a 10 GHz hybrid photonic-microwave oscillator

Author(s)

Abstract

Keywords

Citation

Additional citation formats