User Manual
Page 70
OP5 S.A. Kokorowski (Hughes Research). J Opt. Soc. Am.
69(1) January, 1979.
Analysis of Adaptive Optical Elements
Made from Piezoelectric Bimorphs.
OP6 R. Kashyap & P. Pantelis. Second Symposium on Optic
Fibre Measurements, Oct. 13-14 1982
Measurement of Optical Fibre Absorption
Loss: A Novel Technique.
OP7 P. D. DeSouza, M. D. Mermelstein, Applied Optics, Dec. 1,
1982.
Electric Field Detection with a Piezoelectric
Polymer-jacketed Single-Mode Optical
Fiber
OP8 H. Coufal (IBM) Applied Physics Letters. 44(1) January 1,
1984.
Photothermal Spectroscopy Using a
Pyroelectric Thin-Film Detector.
OP9 U.S. Patent 4,748,366 George Taylor, Sept. 2, 1986 Novel uses of Piezoelectric Materials for
Creating Optical Effects
OP10 H. Sasabe, T. Nakayama et al. (Japan). Polymer Journal
13(10). 1981.
Photovoltaic Effect in Poly(vinylidene
fluoride)
OP11 A. Mandelis (Toronto) Chemical Physics Letters 108(4).
July 13, 1984.
Frequency-Domain Photopyroelectric
Spectroscopy of Condensed Phrases
(PPES): A New Simple and Powerful
Spectroscopic Technique.
OP12 V. S. Sudarshanam, R. O. Claus, Fiber & Electro Optics
Res Ctr, VA Polytechnic Inst & State Univ, Blacksburg, VA.
Accepted for publication in Proc Optical Fiber Sensors '93)
Firenze, Italy, May 1993.
Fiber Optic Polarization and Phase
Modulator Utilizing a Transparent Piezofilm
with Indium Tin Oxide Electrodes
PYROELECTRIC
P5 K. Shigiyama & K. Miura (Matsushita Comm. Inds.
Co.,Japan). Presentation.
PVDF Infrared Detector and Microphone
for Monitoring.
P7 U. Korn, Z. Rav-Noy & S. Shtrikman (Israel). Applied
Optics 20(11). June 1981.
Pyroelectric PVF2 Infrared Detector
Arrays.
P12 U.S. Patent 3,824,098 J.G. BERGMAN et al. (Bell Labs)
July 16, 1974.
Pyroelectric Copying Device.
P17 L.E. Ravich. Electronic Imaging. June 1984. Pyroelectric Infrared Detectors.
P19 Pennwalt Corporation KYNAR Properties.
P24 H. Meixner, G. Mader, P. Kleinschmidt. Siemens Entwickl. -
Ber.Bd.15(1986)Nr.3.
Infrared sensors based on the Pyroelectric
Polymer Poly-Vinylidene Fluoride (PVDF).