Semiconductor Physics, Quantum Electronics and Optoelectronics, 3 (2) P. 170-173 (2000).
References
1. V.F. Kosorotov, L.S. Kremenchugskij, V.B. Samoilov and L.V.Shchedrina, Pyroelectric Effect and Its Practical Applications,Naukova Dumka, Kiev (1987) .
2. R.W. Whatmore, Pyroelectric ceramics and devices for thermal infrared detection and imaging // Ferroelectrics, 118 (1/4), pp. 241-259(1991). https://doi.org/10.1080/00150199108014764
3. V.F. Kosorotov, L.S. Kremenchugskij and L.V. Shchedrina, Tertiary pyroelectric effect and its application for registration of the pulse radiation // Proc.of Conference on Production and Employment of Ferro- and Piezomaterials, Moscow, pp.71-75 (1984).
4. W.Cady, Piezoelectricity, New York, London: McGraw-Hill Book Com., Inc.(1946).
5. J.F. Nye, Physical Properties of Crystals. Oxford University Press,London (1957).
6. I.B. Schein, P.J. Cressman and L.E. Cross, Electrostatic measurement of tertiary pyroelectricity in partially clamped LiNbO3 // Ferroelectrics,22(3/4), pp. 945-948 (1979). https://doi.org/10.1080/00150197908239449
7. E.N. Pirogov, B.L. Timan and V.M. Fesenko, Secondary pyroelectric effect in LiNbO3 and LiTaO3 under axisymmetric heating // Crystallography, 27(6), pp. 1131 -1135 (1982).
8. V.F. Kosorotov, L.S. Kremenchugskij, L.V. Levash, L.V. Shchedrina, Tertiary pyroelectric effect in lithium niobate and lithium tantalite crystals // Ferroelectrics,70(1/2), pp. 27 -37 (1986). https://doi.org/10.1080/00150198608221418
9. V.F. Kosorotov, L.S. Kremenchugskij, L.V. Levash and L.V. Shchedrina, Some specific features in the behavior of dynamic pyroelectric effect under temperature gradient conditions // Ferroelectrics,118(1/4),pp. 233 - 240 (1991). https://doi.org/10.1080/00150199108014763
10. X.S. Wang, A Discussion on Type II Pyroelectric Detectors // Infrared Phys. Ferroelectrics Lett. Sec., 15(5/6), pp. 159-165 (1993).
11. V.F. Kosorotov, L.V. Levash, L.V. Shchedrina et al. Power sensors, based on the tertiary pyroelectric effect, combined with exit windows of CO and CO2 lasers // Quantum Electronics, 24(6), pp. 543-545 (1994). https://doi.org/10.1070/QE1994v024n06ABEH000135
12. T.K. Munshi, K.K. Kundu, R.K.Mahalanabis, Mechanical response in an N-electrode piezo-quartz bar under thermal excitations // Acta Physica Polonica A,87(6), pp. 995 - 1002 (1995). https://doi.org/10.12693/APhysPolA.87.995
13. I.V. Blonsky, V.F. Kosorotov, , L.V. Shchedrina and L.V. Levash, New pyroactive structures for infrared optoelectronics // SPIE Proc.,3890,pp. 55-62 (1999). https://doi.org/10.1117/12.368418
14. V.F. Kosorotov, Symmetry properties of tertiary pyroelectric effect in inhomogeneous one-dimensional temperature fields // Inorganic Materials, 31(6), pp. 827 - 830 (1995) .
15. V.F. Kosorotov, L.V. Shchedrina, L.V.Levash, Creation physical principles of induced pyro-active structures with controllable polar properties // Ukr. J. Phys., 44(1/2), pp.251-258 (1999) .
16. V.F. Kosorotov, A study on electric power detector acting as output windows of CO and CO2 lasers // SPIE Proc., 2259,pp. 213 - 219(1994). https://doi.org/10.1117/12.171656