ROLE OF ACOUSTIC AND OPTICAL VIBRATION MODES IN FERROELECTRIC CRYSTAL TECHNOLOGIES: (DEUTERATED TRIGLYCINE SULPHATE CRYSTAL)
DOI:
https://doi.org/10.7251/COM1201038NAbstract
A modified Green’s function theory with pseudo vibration theory of ferroelectrics has been applied to deuterated triglycine sulphate crystal to predict the applications of the ferroelectric crystal in computing technology.References
[1] B. T. Mathias, C. E. Miller, Remeika, Ferroelectricity of glycine sulphate, Phys. Rev. 104 (1956) 449.
[2] S. Hoshino, Y. Okaya and R. Pepinsky, Crystal structure of the ferroelectric phase of (Glycine)3.H2SO4, Phys. Rev. 115 (1959) 323.
[3] B. N. Prasalov, M. Y. Palagin and V. .V Gorbatenko, Dielectric hysteresis loops dispersion in TGS crystals Ferrolectrics 214 (1998) 325.
[4] M. Costache, I. Matei, L. Pintilie, H. V. Alexandru and C. Berbecaru, Investigations of the pyroelectric properties of pure and alanine doped TGS crystals, Jour. of optioelec. and advance. materi. 3/1 (2001) 75-81.
[5] R. B. Lal and A. K. Batra, Growth and properties of triglycine sulphate (TGS) crystals: Review, Ferroelectrics 142/1 (1993) 51-82.
[6] S. N. Drozhdin, O. M. Golitsyna, A. I. Nikishina, F. A. Tuma and D. P. Tarasov, Relaxation of the domain structure in triglycine and deuterated triglycine sulphate crystals in the course of polarization switching, Phys. of the Sol. Sta. 48/3 (2006) 532-536.
[7] J. L. Bjorkstam, Deuteron nuclear-magnetic-resonance study of the ferroelectric phase transition in deuterated triglycine sulphate and KD2PO4, Phys. Rev. 153/2 (1967)599-605.
[8] B. Brezina and F. Smutny, Preparation of solid solutions of deuterated triglycine sulphate and concentration dependence of some of their ferroelectric properties, Czechoslovak Jour. Of Phys. 18/3 393-401.
[9] S. Kushnir, Simultaneous measurements of crystal optical characteristics of deuterated triglycine sulphate, Physica Status Solidi, Physica Status Solidi 226/1 (2003) 191-199.
[10] A. Camnasio and J. A. Gonzalo, Departure from mean field critical behaviour in ferroelectric DTGS, Sol. Sta. Commun., Sol. Sta. Commun. 16/10-11 (1975) 1169-1173.
[11] K. Imai and H. Ishida, International bias of alanine doped TGS, Ferroelectrics 106 (1990) 321-326.
[12] M. J. Tello and E. Hernandez, Phenomenological parameters in P.G.S., J. Phy. Soc. Jpn. 35 (1973) 1289-1291.
[13] R. Blinc, S. Detoni and M. Pintar, Nature of the ferroelectric transition in triglycine sulphate, Phys. Rev. 124 (1961) 1036-1038.
[14] B. K. Chaudhuri, K. R. Chaudhari and S. Benerjie, Green’s-function theory of ferroelectric phase transitions in hydrogen-bonded triglycine sulphate with the pseudospin lattice coupled-mode model: A unified theory of structural phase transitions. II. Nonlinear properties, Phys. Rev. B., 38/1 (1988) 689.
[15] T. Mitsui, Theory of the ferroelectric effect in Rochelle salt, Phys. Rev., 111/5 (1958) 1259-1267.
[16] J. A .Gonzalo, Equation of state for the cooperative transition of triglycine sulphate near Tc, Phys. Rev. B1 (1970) 3125-3132.
[17] B. S. Semwal and P K Sharma, Dielectric susceptibility and infrared absorption in an anharmonic crystal, Progr. Theor. Phys., 51 (1974) 639-655.
[18] K. L. Bye, P. W. Whipps and E. T. Keve, High internal bias fields in tgs (l-alanine), Ferroelectrics 4/1 (1972) 253-256.
[19] R. M. Hill, S. K. Ichiki, High-frequency behaviour of hydrogen –bonded ferroelectric: Triglycine sulphate and KD2PO4, Phys. Rev. 132/4 (1963) 1603-1608.
[20] R. Shreekumar and J. Philip, Ultrasonic study of the para-ferroelectric phase transition in phosphate doped TGS crystals, Ferroelectrics, 160/1 (1994) 23-33.
[21] M. A. Gaffar, L. I. Al-Houty and M. Al-Muraikhi, The dffect of doping crystals of TGS with some di- and trivalent ions on its: (I) dielectric constant and A.C. conductivity, Qatar Univ.Sci.Bull. 7 (1987) 39-53.
[22] S. N. Drozhdin and M. A. Kuyantsev, Dielectric relaxation in deuterated triglycine sulphate crystals, Physics of the solid state, 40/8 (1998) 1398-1401.
[23] B. Banan, R. B. Lal, A. Batra, Modified triglycine sulphate (TGS) single crystals for pyroelectric infrared detector application, journal of materials science, 27/9 (1992) 2291-2297.
[2] S. Hoshino, Y. Okaya and R. Pepinsky, Crystal structure of the ferroelectric phase of (Glycine)3.H2SO4, Phys. Rev. 115 (1959) 323.
[3] B. N. Prasalov, M. Y. Palagin and V. .V Gorbatenko, Dielectric hysteresis loops dispersion in TGS crystals Ferrolectrics 214 (1998) 325.
[4] M. Costache, I. Matei, L. Pintilie, H. V. Alexandru and C. Berbecaru, Investigations of the pyroelectric properties of pure and alanine doped TGS crystals, Jour. of optioelec. and advance. materi. 3/1 (2001) 75-81.
[5] R. B. Lal and A. K. Batra, Growth and properties of triglycine sulphate (TGS) crystals: Review, Ferroelectrics 142/1 (1993) 51-82.
[6] S. N. Drozhdin, O. M. Golitsyna, A. I. Nikishina, F. A. Tuma and D. P. Tarasov, Relaxation of the domain structure in triglycine and deuterated triglycine sulphate crystals in the course of polarization switching, Phys. of the Sol. Sta. 48/3 (2006) 532-536.
[7] J. L. Bjorkstam, Deuteron nuclear-magnetic-resonance study of the ferroelectric phase transition in deuterated triglycine sulphate and KD2PO4, Phys. Rev. 153/2 (1967)599-605.
[8] B. Brezina and F. Smutny, Preparation of solid solutions of deuterated triglycine sulphate and concentration dependence of some of their ferroelectric properties, Czechoslovak Jour. Of Phys. 18/3 393-401.
[9] S. Kushnir, Simultaneous measurements of crystal optical characteristics of deuterated triglycine sulphate, Physica Status Solidi, Physica Status Solidi 226/1 (2003) 191-199.
[10] A. Camnasio and J. A. Gonzalo, Departure from mean field critical behaviour in ferroelectric DTGS, Sol. Sta. Commun., Sol. Sta. Commun. 16/10-11 (1975) 1169-1173.
[11] K. Imai and H. Ishida, International bias of alanine doped TGS, Ferroelectrics 106 (1990) 321-326.
[12] M. J. Tello and E. Hernandez, Phenomenological parameters in P.G.S., J. Phy. Soc. Jpn. 35 (1973) 1289-1291.
[13] R. Blinc, S. Detoni and M. Pintar, Nature of the ferroelectric transition in triglycine sulphate, Phys. Rev. 124 (1961) 1036-1038.
[14] B. K. Chaudhuri, K. R. Chaudhari and S. Benerjie, Green’s-function theory of ferroelectric phase transitions in hydrogen-bonded triglycine sulphate with the pseudospin lattice coupled-mode model: A unified theory of structural phase transitions. II. Nonlinear properties, Phys. Rev. B., 38/1 (1988) 689.
[15] T. Mitsui, Theory of the ferroelectric effect in Rochelle salt, Phys. Rev., 111/5 (1958) 1259-1267.
[16] J. A .Gonzalo, Equation of state for the cooperative transition of triglycine sulphate near Tc, Phys. Rev. B1 (1970) 3125-3132.
[17] B. S. Semwal and P K Sharma, Dielectric susceptibility and infrared absorption in an anharmonic crystal, Progr. Theor. Phys., 51 (1974) 639-655.
[18] K. L. Bye, P. W. Whipps and E. T. Keve, High internal bias fields in tgs (l-alanine), Ferroelectrics 4/1 (1972) 253-256.
[19] R. M. Hill, S. K. Ichiki, High-frequency behaviour of hydrogen –bonded ferroelectric: Triglycine sulphate and KD2PO4, Phys. Rev. 132/4 (1963) 1603-1608.
[20] R. Shreekumar and J. Philip, Ultrasonic study of the para-ferroelectric phase transition in phosphate doped TGS crystals, Ferroelectrics, 160/1 (1994) 23-33.
[21] M. A. Gaffar, L. I. Al-Houty and M. Al-Muraikhi, The dffect of doping crystals of TGS with some di- and trivalent ions on its: (I) dielectric constant and A.C. conductivity, Qatar Univ.Sci.Bull. 7 (1987) 39-53.
[22] S. N. Drozhdin and M. A. Kuyantsev, Dielectric relaxation in deuterated triglycine sulphate crystals, Physics of the solid state, 40/8 (1998) 1398-1401.
[23] B. Banan, R. B. Lal, A. Batra, Modified triglycine sulphate (TGS) single crystals for pyroelectric infrared detector application, journal of materials science, 27/9 (1992) 2291-2297.
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2012-10-19
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