Jinendra K. Ranka scite author profile

We stabilized the carrier-envelope phase of the pulses emitted by a femtosecond mode-locked laser by using the powerful tools of frequency-domain laser stabilization. We confirmed control of the pulse-to-pulse carrier-envelope phase using temporal cross correlation. This phase stabilization locks the absolute frequencies emitted by the laser, which we used to perform absolute optical frequency measurements that were directly referenced to a stable microwave clock.

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Visible continuum generation in air–silica microstructure optical fibers with anomalous dispersion at 800 nm

Ranka¹,

Windeler²,

Stentz³

2000

Opt. Lett.

2,034

673

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We demonstrate experimentally for what is to our knowledge the first time that air-silica microstructure optical fibers can exhibit anomalous dispersion at visible wavelengths. We exploit this feature to generate an optical continuum 550 THz in width, extending from the violet to the infrared, by propagating pulses of 100-fs duration and kilowatt peak powers through a microstructure fiber near the zero-dispersion wavelength.

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Direct Link between Microwave and Optical Frequencies with a 300 THz Femtosecond Laser Comb

et al. 2000

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We demonstrate a great simplification in the long-standing problem of measuring optical frequencies in terms of the cesium primary standard. An air-silica microstructure optical fiber broadens the frequency comb of a femtosecond laser to span the optical octave from 1064 to 532 nm, enabling us to measure the 282 THz frequency of an iodine-stabilized Nd:YAG laser directly in terms of the microwave frequency that controls the comb spacing. Additional measurements of established optical frequencies at 633 and 778 nm using the same femtosecond comb confirm the accepted uncertainties for these standards.

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Optical properties of high-delta air–silica microstructure optical fibers

Ranka¹,

Windeler²,

Stentz³

2000

Opt. Lett.

457

332

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We analyze the waveguide properties of microstructure optical fibers consisting of a silica core surrounded by a single ring of large air holes. Although the fibers can support numerous transverse spatial modes, coupling between these modes even in the presence of large perturbations is prevented for small core dimensions, owing to a large wave-vector mismatch between the lowest-order modes. The result is an optical fiber that can appear single mode with propagation properties that can be achieved only in multimode waveguides.

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Ultrahigh-resolution optical coherence tomography using continuum generation in an air–silica microstructure optical fiber

et al. 2001

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We demonstrate ultrahigh-resolution optical coherence tomography (OCT) using continuum generation in an air-silica microstructure fiber as a low-coherence light source. A broadband OCT system was developed and imaging was performed with a bandwidth of 370 nm at a 1.3-mu;m center wavelength. Longitudinal resolutions of 2.5 microm in air and ~2 microm in tissue were achieved. Ultrahigh-resolution imaging in biological tissue in vivo was demonstrated.

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Jinendra K. Ranka

Carrier-Envelope Phase Control of Femtosecond Mode-Locked Lasers and Direct Optical Frequency Synthesis

Visible continuum generation in air–silica microstructure optical fibers with anomalous dispersion at 800 nm

Direct Link between Microwave and Optical Frequencies with a 300 THz Femtosecond Laser Comb

Optical properties of high-delta air–silica microstructure optical fibers

Ultrahigh-resolution optical coherence tomography using continuum generation in an air–silica microstructure optical fiber

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