about
Electronic structure and equation of state data of warm dense gold.Engineering Au Nanoparticle Arrays on SiO2 Glass by Pulsed UV Laser Irradiation.Nanoscale chemical imaging using tip-enhanced Raman spectroscopy: a critical review.Experimental and ab initio investigations of microscopic properties of laser-shocked Ge-doped ablator.Efficient treatment of induced dipoles.Brewster angle and reflectivity of optically nonuniform dense plasmas.Six-site polarizable model of water based on the classical Drude oscillator.Noble-metal-free plasmonic photocatalyst: hydrogen doped semiconductors.Molding of Plasmonic Resonances in Metallic Nanostructures: Dependence of the Non-Linear Electric Permittivity on System Size and Temperature.Ab initio calculation of shocked xenon reflectivity.Universal linear-temperature resistivity: possible quantum diffusion transport in strongly correlated superconductorsAn empirical extrapolation scheme for efficient treatment of induced dipoles.Average-atom treatment of relaxation time in x-ray Thomson scattering from warm dense matter.High-Quality, Ultraconformal Aluminum-Doped Zinc Oxide Nanoplasmonic and Hyperbolic Metamaterials.Insulator-metal transition in substrate-independent VO2 thin film for phase-change devices.Fabrication of Semiconductor ZnO Nanostructures for Versatile SERS Application.Explanation of the size dependent in-plane optical resonance of triangular silver nanoprisms.Anomalies in the equilibrium and nonequilibrium properties of correlated ions in complex molecular environments.Invited article: An integrated mid-infrared, far-infrared, and terahertz optical Hall effect instrument.Ultraviolet and visible range plasmonics in the topological insulator Bi1.5Sb0.5Te1.8Se1.2.An equation to calculate internuclear distances of covalent, ionic and metallic lattices.Surface polariton Cherenkov light radiation source.Anomalous diffusion in a field of randomly distributed scatterers.Nonlinear terahertz response of -type GaAs.Verifying the Drude responseThe development of the quantum-mechanical electron theory of metals: 1928—1933Resonances of electromagnetic oscillations in a spherical metal nanoparticleEffects of surface roughness of Ag thin films on surface-enhanced Raman spectroscopy of graphene: spatial nonlocality and physisorption strainPhotonics: Chaos from symmetryMobility transition from ballistic to diffusive transport in non-Hermitian latticesNon-Drude universal scaling laws for the optical response of local Fermi liquidsCharacterizing unusual metal substrates for gap-mode tip-enhanced Raman spectroscopyChemische Bildgebung auf der Nanometerskala mittels spitzenverstärkter Raman-SpektroskopieExtended Drude model analysis of noble metalsStudy of Structure and Electro-Optical Characteristics of Indium Tin Oxide Thin FilmsFour-terminal resistance of a ballistic quantum wireTunable Plasmon Resonance in Ag-Au Split-Ring Resonator with Inner Metallic Cross Heterogeneous Dimer Array
P2860
Q33248056-47129D8E-4B9D-4432-9D6E-80BA9C561208Q34624719-303735EA-A323-4A40-948C-D9BDA1B45533Q34682106-53F5E904-1896-4C89-94B8-D42CA698816FQ35893601-49ABAD05-D382-4B6B-B52B-72CD38A35EAAQ35983024-73BFD4E9-108A-4457-8A72-6B47997F4FE0Q36191491-202C80E0-5401-4DE7-8D76-4E2061C70618Q36581732-68AB8554-2E1E-4444-9B20-9758FBE2846AQ37555276-5E6F4392-A7D8-4B30-83E1-975D59590B8AQ38634096-BE153B6E-444F-4EB5-BA14-792939A2BEC9Q41229253-021CFCD2-365E-43C8-A8C5-75492E099863Q41534385-59073D97-04E2-452D-8CDA-BCA438BC21DCQ42723887-C75CFA48-ECCA-4423-A71F-47B9BA11A46AQ44606865-D0A5CAFF-D5E1-4295-A75C-A7B62A9A61D6Q46431613-860042BB-F39F-45ED-9BEA-F5C65969D3B2Q47095150-828EE81B-10AB-40C1-83A9-CB661E8CD7D5Q47113637-BC61F2B7-C1DE-4BF7-9998-D0168C9D9081Q47300208-2B86A4EE-6B4E-4975-9858-20C93B294214Q47559314-4E594113-3AED-48A0-A8DE-B4D9B73A30A3Q50107742-888455C0-8FE7-4A37-86D0-71E74600FC3DQ50221438-E4BF0F92-5A7E-4299-ACE6-3735C0EC0BDBQ50992210-9E731B61-BF2B-4E0F-8BE2-462A78ADC048Q51536041-69F0A7B0-F820-4664-BB95-B109F45620BFQ51804707-7D488017-5283-4CE5-B2BE-2F0BC03768BCQ52932806-5AF386E9-9DF1-4B57-96F3-D01197011817Q56336638-88BD4A63-DD41-485A-8FDF-B2758CCE714AQ56637539-AC93E05B-FC10-436B-B53A-8178DAE1D61DQ56854146-943FC718-621D-4D2D-B96E-DF22729550AFQ57165181-2D5ADC86-A36A-41AE-97CE-D81C63EBE52FQ57345110-6CA97406-056A-4C8E-ADBC-E14D89902C66Q57345130-5EC9B93A-C99C-4CB4-BE12-45712E9F747BQ57391210-5FC20943-368F-409A-99F6-C696CC18E563Q57595956-AD33ABC9-3947-4A58-B91E-F3193DE0AD3FQ57595959-759A99FD-3F8D-4257-A5FF-1DFD1F04F653Q57942988-01B3DDF9-57EB-4145-A1AC-0844D11F3055Q58917999-B0BA4BF1-76EF-42D5-B9F5-5B43E85665E4Q59055868-29F5EF8C-F0EE-4664-AEF5-A077EE64DA38Q59113628-5B286BC7-2086-4B62-A099-63F4CE43E681
P2860
description
наукова стаття, опублікована в 1900
@uk
name
Zur Elektronentheorie der Metalle
@en
type
label
Zur Elektronentheorie der Metalle
@en
prefLabel
Zur Elektronentheorie der Metalle
@en
P356
P1433
P1476
Zur Elektronentheorie der Metalle
@en
P2093
P304
P356
10.1002/ANDP.19003060312
P577
1900-01-01T00:00:00Z