T. N. Morgan scite author profile

T. N. Morgan

5Publications

250Citation Statements Received

0Citation Statements Given

How they've been cited

752

240

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Affiliations

St George’s University Hospitals NHS Foundation Trust, IBM Research - Thomas J. Watson Research Center, IBM (United States)

Publications

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A tunneling model for the decay of luminescence in inorganic phosphors: The case of Zn2SiO4:Mn

Avouris¹,

Morgan²

1981

157

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We have investigated phosphorescence, thermoluminescence, and photostimulated luminescence in manganese activated zinc silicate phosphors, both with and without arsenic doping. Both phosphorescence and photostimulated luminescence intensities are found to decay as the reciprocal of the time, a result which requires a different interpretation from that given by the usual model of electron release from a distribution of trap levels. To account for these results we propose a new model based on the radiative recombination of electrons and holes through tunneling from shallow traps or from excited states of the deeper traps. A simple expression is derived which describes the decay of both types of luminescence in phosphors under very general conditions for which tunneling is the dominant recombination mechanism. Excellent agreement between theory and experiment is found.

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Broadening of Impurity Bands in Heavily Doped Semiconductors

Morgan¹

1965

Phys. Rev.

269

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New Interpretation of Spin-Wave Behavior in Nickel

1985

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Results from recent calculations of the neutron-scattering cross section for energy transfer up to 1 eV have led to a new picture of spin waves in nickel, one in which spin waves exist out to the zone boundary. Our prediction of the dispersion curve and peak widths is in general agreement with data from subsequent neutron-scattering experiments. This provides additional evidence that the "average" spin-splitting energy for nickel is in the 300-to 400-meV range.

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Recombination by Tunneling in Electroluminescent Diodes

Morgan¹

1966

Phys. Rev.

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Optical Properties of Cd-O and Zn-O Complexes in GaP

Morgan¹,

Welber²,

Bhargava³

1968

Phys. Rev.

204

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T. N. Morgan

A tunneling model for the decay of luminescence in inorganic phosphors: The case of Zn2SiO4:Mn

Broadening of Impurity Bands in Heavily Doped Semiconductors

New Interpretation of Spin-Wave Behavior in Nickel

Recombination by Tunneling in Electroluminescent Diodes

Optical Properties of Cd-O and Zn-O Complexes in GaP

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