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Search Publications by: Scott Diddams (Assoc)

Displaying 301 - 319 of 319

Frequency comb generation using femtosecond pulses and cross-phase modulation in optical fiber at arbitrary center frequencies

January 1, 2000

Author(s)

D J. Jones, Scott Diddams, M S. Taubman, Steven T. Cundiff, L -. Ma, John L. Hall

Optical frequency measurement across a 104-THz gap using a femtosecond laser frequency comb

January 1, 2000

Author(s)

Scott A. Diddams, D J. Jones, L -. Ma, Steven T. Cundiff, John L. Hall

Precision phase control of ultrawide bandwidth fs laser -- A network of ultrastable frequency marks across the visible spectrum

January 1, 2000

Author(s)

Jun Ye, John L. Hall, Scott A. Diddams

Stabilizing and Measuring Optical Frequencies

October 1, 1999

Author(s)

John L. Hall, M S. Taubman, Scott A. Diddams, B Tiemann, Jun Ye, L -. Ma, D J. Jones, Steven T. Cundiff

Many factors are coming together to make this an exciting time in the development of optical frequency standards. These include improved strategies for interrogation of the resonant quantum reference sample, improved accuracy and control of the modulation

Double Gires Tournois Interferometer Negative Dispersion Mirrors for Use in Tunable Modelocked Laserd

August 10, 1999

Author(s)

B Golubovic, R R. Austin, M K. Steiner-Shepard, M K. Reed, A G. van Engen, Scott Diddams

We report the design and operation of novel super-high reflectivity negative dispersion dielectric mirrors for use in tunable ultrafast laser systems. The mirror structure is divided into two distinct regions: an underlying super-high reflectivity

Broadband optical comb generation with a frequency modulated parametric oscillator, ed. by R. Blatt

January 1, 1999

Author(s)

Scott A. Diddams, L -. Ma, Jun Ye, John L. Hall

Instantaneous and noninstantaneous nonlinear effects in femtosecond pulse propagation

January 1, 1999

Author(s)

H K. Eaton, Scott Diddams, A A. Zozulya, A G. van Engen, T S. Clement

Investigating nonlinear femtosecond pulse propagation with frequency-resolved optical gating

January 1, 1999

Author(s)

H K. Eaton, T S. Clement, A A. Zozulya, Scott Diddams

Propagation dynamics of intense femtosecond pulses: Multiple splittings, coalescence, and continuum generation

January 1, 1999

Author(s)

A A. Zozulya, Scott Diddams, A G. van Engen, T S. Clement

Stabilizing and measuring optical frequencies, ed by R. Blatt

January 1, 1999

Author(s)

John L. Hall, M S. Taubman, Scott A. Diddams, B Tiemann, Jun Ye, L -. Ma, D J. Jones, Steven T. Cundiff

Unraveling the Mysteries of Intense Femtosecond Pulse Propagation

December 1, 1998

Author(s)

Scott Diddams, H. E. Eaton, A. G. Van engen, A. A. Zozulya, Tracy S. Clement

Investigations of Nonlinear Femtosecond Pulse Propagation with the Inclusion of Raman, Shock and Third Order Phase Effects

October 1, 1998

Author(s)

A. A. Zozulya, Scott Diddams, Tracy S. Clement

Investigations of Nonlinear Femtosecond Pulse Propagation with the Inclusion of Raman, Shock, and Third-Order Phase Effects

October 1, 1998

Author(s)

A A. Zozulya, Scott Diddams, Tracy S. Clement

The propagation of intense femtosecond pulses in a nonlinear, dispersive bulk medium investigated numerically in the regime where the combined effects of diffraction, normal dispersion and cubic nonlinearity lead to pulse splitting. We present numerical

Amplitude and Phase Measurements of Femtosecond Pulse Splitting in Nonlinear Dispersive Media

March 1, 1998

Author(s)

Scott A. Diddams, H K. Eaton, A A. Zozulya, Tracy S. Clement

The propagation of intense femtosecond pulses in a nonlinear, dispersive medium is characterized using frequency-resolved optical gating. The combined effects of diffraction, normal dispersion and cubic nonlinearity lead to pulse splitting. The role of the