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Search Publications by: William C. Swann (Fed)

Displaying 201 - 225 of 317

Broadband, frequency comb spectroscopy

May 4, 2008

Author(s)

Ian R. Coddington, William C. Swann, Nathan R. Newbury

A stabilized frequency comb provides a broadband array of highly resolved comb lines. Using a multiheterodyne technique, we measure the amplitude and phase of every comb line, allowing for massively parallel, high-resolution spectroscopy.

Practical performance limits on optical frequency transfer over fiber optic links

May 4, 2008

Author(s)

Paul A. Williams, William C. Swann, Nathan R. Newbury

We present theory and experiment quantifying the limitations to stable transport of optical frequencies over optical fiber. These are fundamental fiber noise, propagation delay, bidirectional propagation and system noise in the measurement interferometers.

Fiber lasers for frequency standards in optical communications

February 24, 2008

Author(s)

Nathan R. Newbury, William C. Swann, Ian R. Coddington, Paul A. Williams

Optical light with millihertz relative frequency stabilities and subfemtosecond timing jitter can be produced from stabilized cw or mode-locked fiber lasers. We will discuss the generation, fiber-optic distribution and some applications of these coherent

Coherent, multiheterodyne spectroscopy using stabilized optical frequency combs

January 2, 2008

Author(s)

Ian R. Coddington, William C. Swann, Nathan R. Newbury

The broadband, coherent nature of narrow-linewidth fiber frequency combs is exploited to measure the full complex spectrum of a molecular gas through multiheterodyne spectroscopy. We measure the absorption and phase shift experienced by each of 155 000

Coherent transfer of an optical carrier over 251 km

October 15, 2007

Author(s)

Nathan R. Newbury, Paul A. Williams, William C. Swann

We transfer of an optical frequency over 251 km of optical fiber with a residual instability of 6×10 -19 at 100 s. This instability and the associated timing jitter are limited fundamentally by the noise on the optical fiber and link length. We give a

Narrow linewidth fiber laser frequency combs

October 15, 2007

Author(s)

William C. Swann, Ian R. Coddington, John Mcferran, Nathan R. Newbury

Fiber laser frequency combs can provide a series of optical lines that span the spectrum from 1 to 2 υm. By tightly locking the frequency comb to an optical reference, it is possible for these comb lines to exhibit residual linewidths below 1 Hz and

Optical frequency transmission over 251 km of fiber at 6x10 -19 residual frequency instability in 100 s

October 15, 2007

Author(s)

Paul A. Williams, Nathan R. Newbury, William C. Swann

We demonstrate transmission of narrow-linewidth cw laser light (1535 nm) from a cavity-stabilized fiber laser over 251 km of single-mode optical fiber (76 km installed and 175 km on spools). Using standard Doppler-cancellation techniques, we transmit the

A passively mode-locked fiber laser at 1.54 ym with a fundamental repetition frequency reaching 2 GHz

September 26, 2007

Author(s)

John Mcferran, Ljerka Nenadovic, William C. Swann, John B. Schlager, Nathan R. Newbury

We demonstrate a fundamentally mode-locked fiber laser with a repetition frequency in excess of 2 GHz at a central wavelength of 1.535 υm. Co-doped ytterbium-erbium fiber provides the gain medium for the laser, affording high gain per unit length, while a

Coherent fiber-based frequency combs and cw lasers at 1550 nm

August 26, 2007

Author(s)

Nathan R. Newbury, William C. Swann, Ian R. Coddington, Paul A. Williams

Coherent optical sources in the 1550 nm region of the spectrum have a number of applications in frequency metrology, stable frequency transfer, precision spectroscopy and remote sensing. A narrow-linewidth (~ 1 Hz) single-frequency source can be generated

Narrow linewidth 1.5 ym sources and the thermal limit

July 23, 2007

Author(s)

William C. Swann, Nathan R. Newbury

A measured 1 Hz linewidth between a cavity-stabilized, 1535 nm cw fiber laser and the 1535-nm tooth of a stabilized fiber frequency comb is below the thermodynamic limit of the frequency comb.

Optical frequency transfer over 38 km of installed fiber at less than 3x10 -19 residual fractional instability

July 23, 2007

Author(s)

Paul A. Williams, William C. Swann, Nathan R. Newbury

We transmit a narrow-linewidth cw laser at 1535 nm across 38 km of installed fiber. Through standard Doppler-cancellation techniques, we achieve a residual fractional frequency instability of 4x10 -17 at 1 second averaging time.

Low-noise fiber-laser frequency combs

July 19, 2007

Author(s)

Nathan R. Newbury, William C. Swann

We discuss experimental and theoretical aspects of a low-noise fiber-laser frequency comb, including the experimental configuration and the major contributions to the frequency noise and linewidth of the individual comb modes. Intra-cavity noise sources

Lidar with femtosecond fiber-laser frequency combs

July 8, 2007

Author(s)

Nathan R. Newbury, William C. Swann, Ian R. Coddington

Passively mode-locked fiber lasers produce a broad spectrum of light that is also highly phase-coherent. Such sources have clear potential for remote sensing because their broad spectrum permits high range resolution and the coherence permits operation at