J.A Hebden scite author profile

EPR, ENDOR, and x-ray photoelectron (ESCA) spectroscopy are used here to characterize AsO4−4 and SeO3−4 radicals in KH2PO4, KD2PO4, NH4H2PO4, and ND4D2PO4 in their paraelectric and ferroelectric–antiferroelectric phases. Temperature dependence of the 75As or 77Se hyperfine structure and of the proton superhyperfine structure was used as a microscopic probe for studying low frequency (108–1011 Hz) fluctuations near the phase transitions. Above a certain temperature T*≳Tc, the EPR spectra show (the expected) axial symmetry. Below T*, the spectra exhibit the symmetry of either the ferroelectric or the antiferroelectric phase, and thus provide evidence for the formation of polarized clusters. From an analysis of the temperature dependence of the observed line shapes we deduce that the motion of the hydrogen bond protons is strongly coupled to that of the heavier ions; and the width of this mode is in the megahertz range around T*. This conclusion has been reached by using both probes in the phosphates. For arsenates, however, the SeO3−4 could not be stabilized.

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Electron paramagnetic resonance study of oriented ground-state triplet p-nitrophenyl nitrene

Hebden

McDowell

1971

Journal of Magnetic Resonance (1969)

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Electron-nuclear double-resonance study of hydrogen bonding in cadmium acetate dihydrate crystals containing Hg(I) centers

Dalal

Hebden

McDowell

1974

Journal of Magnetic Resonance (1969)

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EPR study of Hg(I) centers in cadmium acetate dihydrate crystals. Determination of the hyperfine structure anomaly for a system with noncoincident g and A tensors

Dalal

Hebden

McDowell

1974

Journal of Magnetic Resonance (1969)

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J.A Hebden

Calculation of EPR transition fields and transition probabilities for a general spin hamiltonian

An EPR and ENDOR study of the low frequency fluctuations and cluster formation in the hydrogen bonded ferroelectrics KH2PO4 and KD2PO4 and the antiferroelectrics NH4H2PO4 and ND4D2PO4

Electron paramagnetic resonance study of oriented ground-state triplet p-nitrophenyl nitrene

Electron-nuclear double-resonance study of hydrogen bonding in cadmium acetate dihydrate crystals containing Hg(I) centers

EPR study of Hg(I) centers in cadmium acetate dihydrate crystals. Determination of the hyperfine structure anomaly for a system with noncoincident g and A tensors

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