Title :
Reducing the optical absorption of LPE garnet films at a wavelength of around 1000 nm
Author :
Kawai, H. ; Fujii, S. ; Umezawa, H.
Author_Institution :
FDK Corp., Shizouka, Japan
fDate :
11/1/1995 12:00:00 AM
Abstract :
This paper concerns the reduction of optical absorption loss L of Bi-substituted rare-earth iron garnet films at a wavelength of around 1000 nm for use as a 45° Faraday rotator of an optical isolator. First, a single crystal of Nd1.21Gd1.74Sc2.07 Ga2.98O12, with a lattice constant of 1.2619 nm, was grown by the Czochralski method. Using this crystal as a substrate, Nd1.69Bi1.31Fe5O12 film was grown by the LPE (Liquid Phase Epitaxial) method. The resultant LPE film showed a reduced optical absorption at around 1000 nm, because its optical absorption peak at around 900 nm due to the Fe3+ crystal field transition from 8A1g to 4T1g shifted toward short wavelengths. In addition, the LPE film´s Faraday rotation coefficient increased, since Nd, as Bi does, contributes negatively to the Faraday rotation. The value of L for the LPE film was found to be 2.6 dB at a wavelength of 980 nm, and 1.0 dB at 1017 nm
Keywords :
Faraday effect; bismuth compounds; garnets; light absorption; liquid phase epitaxial growth; magnetic epitaxial layers; neodymium compounds; optical losses; 1.0 to 2.6 dB; 1000 nm; Bi-substituted rare-earth iron garnet films; Czochralski growth; Faraday rotation; LPE; Nd1.21Gd1.74Sc2.07Ga2.98 O12; Nd1.69Bi1.31Fe5O12; crystal field transition; lattice constant; optical absorption loss; optical isolator; single crystal substrate; Absorption; Bismuth; Garnet films; Iron; Isolators; Lattices; Neodymium; Optical films; Optical losses; Substrates;
Journal_Title :
Magnetics, IEEE Transactions on
