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flow of the Cu47-Ti34-Zr11-Ni8 glass forming alloy; Journal of
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x-ray-scattering study of phase separation and crystallization in the
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toughness and fatigue-crack propagation in a Zr–Ti–Ni–Cu–Be bulk
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and crystallization of an amorphous Zr60Al15Ni25 alloy; Journal of
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diffusion and breakdown of the Stokes–Einstein relation in the
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of bcc nanocrystals in bulk Mg–Cu–Y amorphous alloys; Journal of
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electrostatic levitation processing technique; Applied Physics
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during containerless electrostatic levitation processing; Applied
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processable metallic glass: Zr41.2Ti13.8Cu12.5Ni10.0Be22.5; Applied
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distortions in YBa2Cu3O7–delta thin films grown in situ by sequential
ion beam sputtering; Journal of Applied Physics; Vol. 69; No. 9;
6710-6712; 10.1063/1.348892
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conceptual approach for noncontact calorimetry in space; Review of
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properties and crystallization kinetics of glass-forming undercooled
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between deposition parameters and structural and electrical properties
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anomaly during vitrification of hydrided Fe2Er single crystals;
Physical Review Letters; Vol. 64; No. 15; 1753-1756; 10.1103/PhysRevLett.64.1753
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phase formation in the Zr-Al binary system induced by mechanical
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of metal/Al bilayers near 77 K; Applied Physics Letters; Vol. 54;
No. 5; 413-415; 10.1063/1.100937
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and thermodynamic properties of heavily mechanically deformed Ru and
AlRu; Journal of Applied Physics; Vol. 65; No. 1; 305-310; 10.1063/1.342541
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diffractometer stage for in situ structural analysis of thin films;
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planar growth of amorphous and crystalline Ni silicides; Applied
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and growth of YBaCuO on SrTiO3; Applied Physics Letters; Vol. 53;
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observations of amorphous and crystalline Ni-Zr alloy formation by
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thickness of amorphous NiZr interlayers formed by a solid-state reaction
technique; Applied Physics Letters; Vol. 51; No. 21; 1693-1695; 10.1063/1.98546
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interdiffusion reactions in Ni/Ti and Ni/Zr multilayered thin films;
Applied Physics Letters; Vol. 51; No. 9; 661-663; 10.1063/1.98326
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thermodynamics on ion mixing; Applied Physics Letters; Vol. 50;
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to spike — a fractal-geometry approach; Physical Review Letters;
Vol. 58; No. 20; 2083-2086; 10.1103/PhysRevLett.58.2083
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Materials: A Survey of Amorphous Solids; Science; Vol. 235;
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between the cohesive energy and the onset of radiation-enhanced
diffusion in ion mixing; Journal of Applied Physics; Vol. 60; No. 7;
2615-2617; 10.1063/1.337131
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of amorphous Ti1−xCux (0.10<x<=0.87) by mechanical alloying;
Journal of Applied Physics; Vol. 60; No. 3; 1147-1151; 10.1063/1.337359
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Neutron Diffraction Investigation of the Atomic and Magnetic Structure
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amorphous metallic (W0.6Re0.4)76B24 coatings on steel substrates;
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moving species in the formation of amorphous NiZr by solid-state
reaction; Applied Physics Letters; Vol. 47; No. 6; 800-802; 10.1063/1.95988
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resistivity and structural changes upon relaxation and crystallisation
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structure of amorphous Mo-Ru-Si alloys; Journal of Applied Physics;
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of crystallization of (Zr1-xHfx)62Ni38 metallic glasses; Physical
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and growth of amorphous phases by solid-state reaction in elemental
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of Hf-Ni films by solid-state reaction; Physical Review B; Vol. 29;
No. 10; 5498-5504; 10.1103/PhysRevB.29.5498
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glassy early-transition-metal-late-transition-metal hydrides;
Physical Review B; Vol. 28; No. 6; 2907-2913; 10.1103/PhysRevB.28.2907
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of an amorphous alloy by solid-state reaction of the pure
polycrystalline metals; Physical Review Letters; Vol. 51; No. 5;
415-418; 10.1103/PhysRevLett.51.415
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metallic glasses in fabrication of ICF targets; Journal of Vacuum
Science and Technology A; Vol. 1; No. 3; 1568-1570; 10.1116/1.572266
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to produce amorphous Mo-Ru superconducting films; Applied Physics
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an amorphous metallic hydride by reaction of hydrogen with crystalline
intermetallic compounds — A new method of synthesizing metallic
glasses; Applied Physics Letters; Vol. 42; No. 3; 242-244; 10.1063/1.93901
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and the electronic structure of Zr- and Hf-based metallic glasses;
Physical Review B; Vol. 27; No. 3; 1610-1618; 10.1103/PhysRevB.27.1610
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difference rule for amorphous alloy formation by ion mixing; Applied
Physics Letters; Vol. 42; No. 1; 45-47; 10.1063/1.93767
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pinning in superconducting amorphous (Mo0.6Ru0.4)B18; Journal of
Applied Physics; Vol. 53; No. 11; 7612-7614; 10.1063/1.330135
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structure and properties of some Rh_(0.92-x)B_xSi_(0.08) metallic
glasses; Journal of Physics F: Metal Physics; Vol. 12; No. 9;
1861-1868; 10.1088/0305-4608/12/9/008
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phase separation in the metallic glasses (Pb1-ySby)1-xAu; Physical
Review B; Vol. 23; No. 1; 143-149; 10.1103/PhysRevB.23.143
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in Metallic Glasses; Journal de Physique Colloques; Vol. 41; No. C8;
731-741; 10.1051/jphyscol:19808183
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symmetry around the glass-former sites in amorphous metallic alloys
through electric quadrupole effects; Physical Review Letters; Vol.
44; No. 22; 1465-1468; 10.1103/PhysRevLett.44.1465
- Poon, S. J. and Johnson, W. L. (1978) Electronic
and Transport Properties of Liquid Quenched Amorphous
(Mo_(1-xx)Ru_x)₈₀P₂₀ Superconductors; Journal de Physique Colloques;
Vol. 39; No. C6; 451-453; 10.1051/jphyscol:19786202
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Effect in Amorphous La_(0.8)Ga_(0.2); Journal de Physique Colloques;
Vol. 39; No. C6; 955-956; 10.1051/jphyscol:19786423
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magnetic susceptibility, and electronic properties of amorphous
(Mo1-xRux)80P20 alloys obtained by liquid quenching; Physical Review
B; Vol. 18; No. 1; 206-217; 10.1103/PhysRevB.18.206
- Johnson, W. L. and Poon, S. J. (1975) Enhanced
superconductivity and lattice instability in Nb-Rh alloys; Journal
of Applied Physics; Vol. 46; No. 5; 2325-2326; 10.1063/1.321837
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in amorphous and microcrystalline transition–metal alloys; Journal
of Applied Physics; Vol. 46; No. 4; 1787-1792; 10.1063/1.321784
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of amorphous and microcrystalline superconductors; IEEE Transactions
on Magnetics; Vol. 11; No. 2; 189-191; 10.1109/TMAG.1975.1058645
- Johnson, W. L.; Poon, S. J.; et el. (1975) Amorphous
superconducting lanthanum-gold alloys obtained by liquid quenching;
Physical Review B; Vol. 11; No. 1; 150-154; 10.1103/PhysRevB.11.150
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in metal-semiconductor eutectic alloys; Physical Review B; Vol. 9;
No. 11; 4742-4751; 10.1103/PhysRevB.9.4742
- Reese, W. and Johnson, W. L. (1970) Low-temperature
specific heat of ruthenium; Physical Review B; Vol. 2; No. 8;
2972-2974; 10.1103/PhysRevB.2.2972
- Johnson, W. L. and Reese, W. (1970) Calorimetric
investigation of the antiferromagnetic transition in NiCl2·6H2O;
Physical Review B; Vol. 2; No. 5; 1355-1362; 10.1103/PhysRevB.2.1355