Valuable

This section mainly contains the list of valuable articles on the classic theory of pyroelectric detectors and equivalent applications.

1. 30 Years of Passive Infrared Motion Detectors - a Technology Review by Hans J. Keller, 2000.

2. Achieving high reliability in passive infrared i-ntruder alarms with lithium tantalate pyroelectric detectors by Hans J. Keller, 1983.

3. TRAVIS G. HICKMAN, GLENN A. BURDICK PYROELECTRIC TRANSDUCERS FOR HEAT TRANSFER MEASUREMENT IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, JUNE 1968, pp 106-110.

4. H. Blackburn and H. C. Wright Thermal analysis of pyroelectric detectors Infrared Physics, 1970, pp. 191-197.

5. E. H. Putley Infrared applications of the pyroelectric effect Optics and Laser Technology, 1971, pp.150-156.

6. Henry P. Beerman Improvement in the pyroelectric infrared radiation detector Ferroelectrics, 2:1, 1971, pp. 123-128. DOI: 10.1080/00150197108241501

7. JeanLouis Lachambre A Pyroelectric Energy Meter Review of Scientific Instruments 42, 74 1971; doi: 10.1063/1.1684881

8. M. Simhony and A. Shaulov Pyroelectric Voltage Response to Step Signals of Infrared Radiation in

9. Triglycine Sulphate and StrontiumBarium Niobate Journal of Applied Physics, 1971, pp. 3741-3744  doi: 10.1063/1.1659679

10. A. van der Ziel and S. T. Liu Diffusion theory of the response of pyroelectric detectors  Journal of Applied Physics, 1972, pp. 4260-4261 doi: 10.1063/1.1660908.

11. A. Van Der Ziel Noise sources in pyroelectric detectors  Physica, 1972, pp 589-593.

12. ARMAND HADNI, ROBERT THOMAS LASER STUDY OF REVERSIBLE NUCLEATION SITES IN TRIGIiYCINE SULPHATE AND APPLICATIONS TO PYROELECTRIC DETECTORS Ferroelectrics, 4:1, 1972 39-49, DOI: 10.1080/00150197208241518

13. A. Shaulov and M. Simhony Peak Voltage of the Pyroelectric Response to Short Infrared Laser Pulses Applied Physics Letters 20, 6,1972, pp. 6-7.

14. R. L. Byer & C. B. Roundy Pyroelectric coefficient direct measurement technique and application to a nsec response time detector, 1972, pp. 333-338 dx.doi.org/10.1080/00150197208235326.

15. A. Shaulov and M. Simhony Pyroelectric Voltage Response to Rectangular Infrared Signals in Triglycine Sulphate and Strontium Barium Niobate Journal of Applied Physics, 43, 1972, pp. 1440-1444 doi: 10.1063/1.1661338.

16. A. Shaulov, A. Rosenthal, and M. Simhony Pyroelectric voltage response to short infrared laser pulses in triglycine sulphate and strontiumbarium niobate 43, 1972 pp. 4518-4522 doi: 10.1063/1.1660955.

17. M. Simhony and A. Shaulov Measurement of the pyroelectric coefficient and permittivity from the pyroelectric response to step radiation signals in ferroelectrics Applied Physics Letters 21, 375 1972; doi: 10.1063/1.1654419

18. B. R. Holeman Sinusoidally Modulated Heat Flow and the Pyroelectric Effect Infrared Physics, 1972, vol. 12, pp. 125-135.

19. C.B. Roundy and R.L. Byer Subnanosecond pyroelectric detector Applied Physics Letters 21, 1972 pp. 512-515 doi: 10.1063/1.1654239.

20. A. van der Ziel and S. T. Liu Diffusion theory of the response of pyroelectric detectors Journal of Applied Physics 43, 4260 1972; doi: 10.1063/1.1660908

21. S.T. Liu , J.D. Heaps & O.N. Tufte The pyroelectric properties of the lanthanum-doped ferroelectric plzt ceramics 1972 Ferroelectrics, 3:1, 281-285, DOI: 10.1080/00150197208235319

22. C.B. Roundy and R.L. Byer Sensitive LiTaO3 pyroelectric detector Journal of Applied Physics 44, 1973, pp. 929-931, doi: 10.1063/1.1662294.

23. M. Simhony, A. Shaulov, and A. Maman Temperature dependence of the pyroelectric voltage response to step infrared signals in triglycine sulphate Journal of Applied Physics 44, 2464 1973; doi: 10.1063/1.1662598

24. K.L. Bye, P.W. Whipps, E.T. Keve Alanine Doped TGS/TGSe Crystals for Pyroelectric Applications Ferroelectrics, 1974, vol. 7, pp. 179-181.

25. R.L. Peterson, G.W. Day, P.M. Gruzensky, and R. J. Phelan Jr. Analysis of response of pyroelectric optical detectors Journal of Applied Physics 45, 1974, pp. 3296-3303; doi: 10.1063/1.1663775

26. R.M. Logan and T.P McLean Analysis of Thermal Spread in a Pyroelectric Imaging System Infrared Physics. 1973, Vol. 3, pp. 15-24.

27. H.P. Beerman Characterization of fully deuterated triglycine sulfate (ND2CD2COOD)3D2SO4, Ferroelectrics, 1974 8:1, 653-656, DOI: 10.1080/00150197408234183

28. W.R. Blevin and Jon Geist Influence of Black Coatings on Pyroelectric Detectors  Applied Optics, Vol. 13, No. 5, 1974.

29. R.M. Logan Thermal Response of Some Pyroelectric Imaging Systems Infrared Physics, 1975, Vol. 15, pp. 51-64.

30. A. Shaulov and M. Simhony Internal bias effects on pyroelectric measurements near the Curie temperature in triglycine sulphate  Journal of Applied Physics 47, 1 1976; doi: 10.1063/1.322344

31. Jon Geist, Harry J. Dewey, and Michael A. Lind Lowlevel periodic pulsed energy measurements with an electrically calibrated pyroelectric detector Applied Physics Letters 28, 171 1976; doi: 10.1063/1.88713

32. R.M. Logan Thermal Spread in a Pyroelectric Vidicon with a Pressed Contact Target Interface Infrared Physics, 1976 Vol. 16 pp. 75-79.

33. K.L. Bye, P.W. Whipps, E.T. Keve Triglycine Sulphate/Selenate Solid Solutions for Pyroelectric Applications Ferroelectrics 1976, Vol. 11,pp. 525-534.

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