%D9%85%D8%A7%D8%B1%D9%81%D9%86_%D8%A5%D9%84._%D9%83%D9%88%D9%87%D9%86%D9%85%D8%A7%D8%B1%D9%81%D9%86_%D8%A7%D9%84._%D9%83%D9%88%D9%87%D9%86Marvin_CohenMarvin_CohenMarvin_L._Cohen%D9%85%D8%A7%D8%B1%D9%88%DB%8C%D9%86_%D8%A7%D9%84_%DA%A9%D9%88%D9%87%D9%86Marvin_Cohen%D0%9A%D0%BE%D1%8D%D0%BD,_%D0%9C%D0%B0%D1%80%D0%B2%D0%B8%D0%BD%D0%9C%D0%B0%D1%80%D0%B2%D1%96%D0%BD_%D0%9A%D0%BE%D0%B5%D0%BDQ1715098
about
P1066
P1346
Electronic Shell Structure and Abundances of Sodium ClustersTheory of graphitic boron nitride nanotubesNonlinear ionic pseudopotentials in spin-density-functional calculationsEnergy Gaps in Graphene NanoribbonsTransition metals and their carbides and nitrides: Trends in electronic and structural propertiesSuperconducting Transition Temperatures of Semiconducting SrTi O 3Calculation of bulk moduli of diamond and zinc-blende solidsMagnetic Edge-State Excitons in Zigzag Graphene NanoribbonsEssay: Fifty Years of Condensed Matter PhysicsExcitonic Effects on the Optical Response of Graphene and Bilayer GrapheneExcitonic effects in the optical spectra of graphene nanoribbonsExperimental constraints on some mechanisms for high-temperature superconductivity.Anharmonic phonons and the anomalous isotope effect in La2-xSrxCuO4.Ultrahigh-pressure melting of lead: a multidisciplinary study.Graphene at the edge: stability and dynamics.Prediction of new low compressibility solids.Synthesis and Electronic Transport of Single Crystal K3C60.Boron nitride nanotubes.Molecular Self-Assembly in a Poorly Screened Environment: F4TCNQ on Graphene/BN.Half-metallic graphene nanoribbons.Multiparticle Exciton Ionization in Shallow Doped Carbon Nanotubes.The origin of the anomalous superconducting properties of MgB(2).First principles study of phosphorus and boron substitutional defects in Si-XII.Quasiparticle semiconductor band structures including spin-orbit interactions.Nanostructured Carbon Allotropes with Weyl-like Loops and Points.Structural transformations of carbon nanotubes under hydrostatic pressure.Spatial resolution of a type II heterojunction in a single bipolar molecule.Atomically perfect torn graphene edges and their reversible reconstruction.Calculation of the specific heat of optimally K-doped BaFe₂As₂.Electron beam supercollimation in graphene superlattices.Electrostatically Driven Nanoballoon Actuator.Negative differential resistance in carbon atomic wire-carbon nanotube junctions.Electron-phonon interactions in graphene, bilayer graphene, and graphite.Small phonon contribution to the photoemission kink in the copper oxide superconductors.Electric field effects on spin transport in defective metallic carbon nanotubes.Effects of charge doping and constrained magnetization on the electronic structure of an FeSe monolayer.Amplifying Sommerfeld precursors and producing a discontinuous index of refraction with gains and losses.Calcium-decorated graphene-based nanostructures for hydrogen storage.Band structure and Fermi surface of electron-doped C60 monolayers.Evidence for the R8 phase of germanium.
P50
Q21706215-B526D7C6-D948-4034-88EC-6C3FC5736082Q21708529-0C1997EC-ACA0-4DC4-AC1D-15D98A365CBEQ21708838-FC561A88-1B1F-4BAF-8FD0-FC8A91F10337Q27340359-70A56923-3A69-441F-AE0B-4796ECB375C7Q27349310-9E33F644-2CD0-4A82-8881-6498F808F6CDQ27350074-00A2F2B8-4F5F-486E-A032-D1D1C3C588C3Q27440192-4CB3F48F-9D3B-4960-80F6-E10A3FE343D4Q27445654-E1FEF799-0320-4C2F-8F9F-305DDA7021E1Q27446324-75040C01-832D-46A9-B6DF-11C0B50DC57EQ27447432-B07C6DA2-84FF-4BA6-A509-2663446FB48FQ28247151-5581579B-E84B-4E7A-BF6A-3BD7D9905918Q31137209-EADD395A-6A1D-4EC2-B7F6-4516A35984FAQ31137853-03C0A0CA-CB9D-4611-81D3-0885D165AC22Q33297676-A596C6FA-0441-4D12-BBBE-00FB0FC09D9DQ33422804-7019FCFF-AE01-4337-A38B-20BABE72D795Q34675247-D6F457E1-D2E4-44DC-B21C-21A27777C5B6Q34677903-9FD69DE3-6019-4470-BF0F-E4D8883C76C8Q34680527-6963229B-21DA-4901-B314-072AEBABAA1EQ36401696-BDA4D99D-2948-409A-9FE9-418E532D8B68Q40269355-F561452D-6924-41D4-94C2-07AE18C1A52CQ40624177-F1258581-C4AB-4749-AC16-B5B74753597EQ43479484-BFBB16D5-DED4-4C2D-A657-2167AE767F00Q44297028-96604ADE-37F3-4A38-8FDD-224D98DEE9EDQ44708578-AEF6518D-DE3B-46D8-ADF0-56D1C509A1B6Q45964206-02EDC766-E246-4A44-BF2A-47BEA9377E2BQ45974584-70ECF822-C9DA-4B5C-A26D-71DD9D6F71CFQ45992476-BD19ADC7-BFEA-4BF1-9283-986983CC639AQ46015200-DEDD5AB5-35BD-465C-ABA3-6B795C762F8DQ46039115-8ED39FB3-A9C6-405D-B46D-6ADE49858FE0Q46063150-3BE8487E-A661-404A-8D5D-C3655A5121ACQ46123483-03D7072A-E696-4EE3-8B19-5B24B9892DB4Q46183761-ABACEB3F-8B70-44E1-938D-CE1EB22D411AQ46297522-C3A727BA-37DB-4C68-AFCA-3C5DBECAB355Q46348581-E15F3822-B935-4C5E-8F4B-F6E970D654F4Q46376228-2822A93A-7BE1-4B9F-8C2D-C5C164816C1BQ46514973-71B5BEEB-ECAB-446F-9671-D90DD305F9B0Q46551116-95AA5675-AEEB-481A-95D9-1DEEAC97E005Q46861625-18207828-CF60-4348-BCD9-7F85062881ABQ47980275-727296A7-449E-4E48-8AA3-3F5589584BF8Q49882341-1EDD4982-168C-403E-A0FB-6DC216DA8892
P50
description
Ameerika Ühendriikide füüsik
@et
American physicist
@en
Amerikaans natuurkundige
@nl
US-amerikanischer Physiker
@de
amerikansk fysikar
@nn
amerikansk fysiker
@da
amerikansk fysiker
@nb
amerikansk fysiker
@sv
fisiciste american
@lfn
fisico statunitense
@it
name
Marvin Cohen
@ca
Marvin Cohen
@cs
Marvin Cohen
@de
Marvin Cohen
@fr
Marvin Cohen
@pt
Marvin Cohen
@pt-br
Marvin L. Cohen
@cy
Marvin L. Cohen
@da
Marvin L. Cohen
@en
Marvin L. Cohen
@es
type
label
Marvin Cohen
@ca
Marvin Cohen
@cs
Marvin Cohen
@de
Marvin Cohen
@fr
Marvin Cohen
@pt
Marvin Cohen
@pt-br
Marvin L. Cohen
@cy
Marvin L. Cohen
@da
Marvin L. Cohen
@en
Marvin L. Cohen
@es
altLabel
Коэн, Марвин
@ru
prefLabel
Marvin Cohen
@ca
Marvin Cohen
@cs
Marvin Cohen
@de
Marvin Cohen
@fr
Marvin Cohen
@pt
Marvin Cohen
@pt-br
Marvin L. Cohen
@cy
Marvin L. Cohen
@da
Marvin L. Cohen
@en
Marvin L. Cohen
@es