W. Behrendt scite author profile

The Beamlet is a single-beam prototype of future multibeam megajoule-class Nd:glass laser drivers for inertial confinement fusion. It uses a multipass main amplifier, adaptive optics, and efficient, high-fluence frequency conversion to the third harmonic. The Beamlet amplifier contains Brewster-angle glass slabs with a clear aperture of 39 cm x 39 cm and a full-aperture plasma-electrode Pockels cell switch. It has been successfully tested over a range of pulse lengths from 1-10 ns up to energies at 1.053 mum of 5.8 kJ at 1 ns and 17.3 kJ at 10 ns. A 39-actuator deformable mirror corrects the beam quality to a Strehl ratio of as much as 0.4. The 1.053-mum output has been converted to the third harmonic at efficiencies as high as 80% and fluences as high as 8.7 J/cm(2) for 3-ns pulses.

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Z-Beamlet: a multikilojoule, terawatt-class laser system

Rambo¹,

Smith²,

Porter³

et al. 2005

Appl. Opt.

121

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A large-aperture (30-cm) kilojoule-class Nd:glass laser system known as Z-Beamlet has been constructed to perform x-ray radiography of high-energy-density science experiments conducted on the Z facility at Sandia National Laboratories, Albuquerque, New Mexico. The laser, operating with typical pulse durations from 0.3 to 1.5 ns, employs a sequence of successively larger multipass amplifiers to achieve up to 3-kJ energy at 1054 nm. Large-aperture frequency conversion and long-distance beam transport can provide on-target energies of up to 1.5 kJ at 527 nm.

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Lawson Criterion for Ignition Exceeded in an Inertial Fusion Experiment

Abu-Shawareb¹,

Acree²,

Adams³

et al. 2022

Phys. Rev. Lett.

289

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Initial experiments on Mercury, a 100 J /10 ns /10 Hz /10% efficiency diode pumped solid-state laser

Bayramian

Beach

Behrendt

et al. 2002

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<title>Fusion laser oscillator and pulse-forming system using integrated optics</title>

Wilcox

Behrendt

Browning

et al. 1993

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In order to demonstrate new technology for the proposed National Ignition Facility (NIF), we are currently building a 5-kilojoule laser called Beamlet. The oscillator and pulse shaping system for Beamlet represents a major technological improvement over previous designs. This is true of the laser systems being considered for a NW in general, but the pulseforming system is a particularly radical departure from the typical philosophy of master-oscillator design. Using integrated optics, fiber optics, and diode-pumped lasers instead of bulk optics and flashlamp-pumped lasers, this new master oscillator takes advantage of current technology to make a system with numerous advantages. The requirements for a NW for greater flexibility and reliability necessitate this new approach; the pulse-forming system for the Beamlet will demonstrate a subset of the capabilities required for a NIF.

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W. Behrendt

Performance of a prototype for a large-aperture multipass Nd:glass laser for inertial confinement fusion

Z-Beamlet: a multikilojoule, terawatt-class laser system

Lawson Criterion for Ignition Exceeded in an Inertial Fusion Experiment

Initial experiments on Mercury, a 100 J /10 ns /10 Hz /10% efficiency diode pumped solid-state laser

<title>Fusion laser oscillator and pulse-forming system using integrated optics</title>

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