Low-temperature phase transitions and twin-domain structure of (NH 4)3H(SeO4)2 studied by the electron paramagnetic resonance of Cu2+, VO2+and SeO 3-

Ching Jiun Wu; Jiang Tsu Yu; Mei Na Tsai; Ssu Hao Lou

doi:10.1088/0953-8984/3/21/012

Low-temperature phase transitions and twin-domain structure of (NH ₄)₃H(SeO₄)₂ studied by the electron paramagnetic resonance of Cu²⁺, VO²⁺and SeO ₃^-

Ching Jiun Wu^*
, Jiang Tsu Yu
, Mei Na Tsai
, Ssu Hao Lou

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

EPR of Cu²⁺, VO²⁺, SeO₃^-, and other paramagnetic impurities and species were used to study the low-temperature phase transitions and twin-domain structure of (NH₄) ₃H(SeO₄)₂ crystals. The major findings are; (i) twinning in the monoclinic phases is of the merohedral type (there are three kinds of small domain related by rotations of +or-120 degrees abut the trigonal c axis), (ii) EPR of Cu²⁺ or SeO₃^- reveals the coexistence of the high-temperature and the low- temperature phases below the trigonal R3m to monoclinic A2/a phase transition and on further transitions, however, into the two other low-temperature monoclinic phases a single phase was again observed and (iii) impurities and lattice point defects created by ionizing radiations were observed to influence the twinning and crystal structure of the host compound.

Original language	English
Article number	012
Pages (from-to)	3795-3806
Number of pages	12
Journal	Journal of Physics Condensed Matter
Volume	3
Issue number	21
DOIs	https://doi.org/10.1088/0953-8984/3/21/012
Publication status	Published - 1991

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics

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title = "Low-temperature phase transitions and twin-domain structure of (NH 4)3H(SeO4)2 studied by the electron paramagnetic resonance of Cu2+, VO2+and SeO 3-",

abstract = "EPR of Cu2+, VO2+, SeO3-, and other paramagnetic impurities and species were used to study the low-temperature phase transitions and twin-domain structure of (NH4) 3H(SeO4)2 crystals. The major findings are; (i) twinning in the monoclinic phases is of the merohedral type (there are three kinds of small domain related by rotations of +or-120 degrees abut the trigonal c axis), (ii) EPR of Cu2+ or SeO3- reveals the coexistence of the high-temperature and the low- temperature phases below the trigonal R3m to monoclinic A2/a phase transition and on further transitions, however, into the two other low-temperature monoclinic phases a single phase was again observed and (iii) impurities and lattice point defects created by ionizing radiations were observed to influence the twinning and crystal structure of the host compound.",

author = "Wu, \{Ching Jiun\} and Yu, \{Jiang Tsu\} and Tsai, \{Mei Na\} and Lou, \{Ssu Hao\}",

year = "1991",

doi = "10.1088/0953-8984/3/21/012",

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T1 - Low-temperature phase transitions and twin-domain structure of (NH 4)3H(SeO4)2 studied by the electron paramagnetic resonance of Cu2+, VO2+and SeO 3-

AU - Wu, Ching Jiun

AU - Yu, Jiang Tsu

AU - Tsai, Mei Na

AU - Lou, Ssu Hao

PY - 1991

Y1 - 1991

N2 - EPR of Cu2+, VO2+, SeO3-, and other paramagnetic impurities and species were used to study the low-temperature phase transitions and twin-domain structure of (NH4) 3H(SeO4)2 crystals. The major findings are; (i) twinning in the monoclinic phases is of the merohedral type (there are three kinds of small domain related by rotations of +or-120 degrees abut the trigonal c axis), (ii) EPR of Cu2+ or SeO3- reveals the coexistence of the high-temperature and the low- temperature phases below the trigonal R3m to monoclinic A2/a phase transition and on further transitions, however, into the two other low-temperature monoclinic phases a single phase was again observed and (iii) impurities and lattice point defects created by ionizing radiations were observed to influence the twinning and crystal structure of the host compound.

AB - EPR of Cu2+, VO2+, SeO3-, and other paramagnetic impurities and species were used to study the low-temperature phase transitions and twin-domain structure of (NH4) 3H(SeO4)2 crystals. The major findings are; (i) twinning in the monoclinic phases is of the merohedral type (there are three kinds of small domain related by rotations of +or-120 degrees abut the trigonal c axis), (ii) EPR of Cu2+ or SeO3- reveals the coexistence of the high-temperature and the low- temperature phases below the trigonal R3m to monoclinic A2/a phase transition and on further transitions, however, into the two other low-temperature monoclinic phases a single phase was again observed and (iii) impurities and lattice point defects created by ionizing radiations were observed to influence the twinning and crystal structure of the host compound.

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DO - 10.1088/0953-8984/3/21/012

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Low-temperature phase transitions and twin-domain structure of (NH ₄)₃H(SeO₄)₂ studied by the electron paramagnetic resonance of Cu²⁺, VO²⁺and SeO ₃^-

Abstract

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