E.V. Anoikin scite author profile

High-power and high-energy laser systems have firmly established their industrial presence with applications that span materials processing; high -precision and high -throughput manufacturing; semiconductors, and defense. Along with high average power CO 2 lasers operating at wavelengths of ~ 10 microns, solid state lasers and fiber lasers operating at ~ 1 micron wavelength are now increasingly being used, both in the high average power and high energy pulse regimes.In recent years, polycrystalline diamond has become the material of choice when it comes to making optical components for multi-kilowatt CO 2 lasers at 10 micron, outperforming ZnSe due to its superior thermo-mechanical characteristics. For 1 micron laser systems, fused silica has to date been the most popular optical material owing to its outstanding optical properties. This paper characterizes high -power / high -energy performance of anti-reflection coated optical windows made of different grades of diamond (single crystal, polycrystalline) and of fused silica. Thermo-optical modeling results are also presented for water cooled mounted optical windows. Laser -induced damage threshold tests are performed and analyzed. It is concluded that diamond is a superior optical material for working with extremely high-power and high-energy laser beams at 1 micron wavelength.

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Plasma-activated chemical vapor deposition of bismuth-substituted iron garnets for magneto-optical data storage

Anoikin

Sides

1995

IEEE Trans. Magn.

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Nanoscale scratch resistance of ultrathin protective overcoats on hard magnetic disks

Anoikin¹,

Yang²,

Chao³

et al. 1998

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E.V. Anoikin

UV and gamma radiation damage in silica glass and fibres doped with germanium and cerium

Effects of exposure to photons of various energies on transmission of germanosilicate optical fiber in the visible to near IR spectral range

Diamond optical components for high-power and high-energy laser applications

Plasma-activated chemical vapor deposition of bismuth-substituted iron garnets for magneto-optical data storage

Nanoscale scratch resistance of ultrathin protective overcoats on hard magnetic disks

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