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searching for Optical conductivity 16 found (22 total)

Herbertsmithite (630 words) [view diff] exact match in snippet view article find links to article

magnetic particles have constantly fluctuating scattered orientations. Optical conductivity observations suggest the magnetic state in herbertsmithite is a type

Werner J. Blau (234 words) [view diff] exact match in snippet view article find links to article

as flexible, transparent, conducting films: extremely high DC to optical conductivity ratios. ACS Nano. 2009 Jul 28;3(7):1767-74. (Cited 640 times, according

Heavy fermion material (2,193 words) [view diff] exact match in snippet view article find links to article

low GHz range, was found in UPd2Al3. The gap-like feature in the optical conductivity represents directly the hybridization gap, which opens due to the

Ocean Mercier (590 words) [view diff] case mismatch in snippet view article find links to article

nz. 16 April 2014. Retrieved 18 June 2014. Mercier, Ocean (2002). Optical Conductivity of Colossal Magnetoresistance Manganites (Doctoral thesis). Open

Mattis–Bardeen theory (1,024 words) [view diff] exact match in snippet view article find links to article

"two-fluid" model. If we consider the “normal” electrons, the ratio of the optical conductivity to the one of the normal state is α s α n = 2 ℏ ω ∫ Δ ∞ [ E(E +

Free carrier absorption (847 words) [view diff] exact match in snippet view article find links to article

absorption of energy and the absorbed energy is proportional to the optical conductivity which is the imaginary part of the optical susceptibility after frequency

Kite line (1,847 words) [view diff] exact match in snippet view article find links to article

from solar radiation (UV stabilization), electrical conductivity, optical conductivity, heat conductivity, moisture intake from water (via humidity, rain

Tony Heinz (791 words) [view diff] case mismatch in snippet view article find links to article

Hung; Misewich, James A.; Heinz, Tony F. (2008). "Measurement of the Optical Conductivity of Graphene". Physical Review Letters. 101 (19): 196405. arXiv:0810

Numerical analytic continuation (1,030 words) [view diff] exact match in snippet view article find links to article

Another example of the analytic continuation is calculating the optical conductivity σ ( ω ) {\displaystyle \sigma (\omega )} from the current-current

Fermi liquid theory (3,016 words) [view diff] exact match in snippet view article find links to article

S2CID 59067473. C. C. Homes; J. J. Tu; J. Li; G. D. Gu; A. Akrap (2013). "Optical conductivity of nodal metals". Scientific Reports. 3 (3446): 3446. arXiv:1312

Jozef T. Devreese (1,365 words) [view diff] case mismatch in snippet view article find links to article

"Validity of the Franck-Condon Principle in the Optical Spectroscopy: Optical Conductivity of the Fröhlich Polaron". Physical Review Letters. 96 (13): 136405

Dynamical mean-field theory (2,710 words) [view diff] exact match in snippet view article find links to article

double occupancy of a site response functions (compressibility, optical conductivity, specific heat) In particular, the drop of the double-occupancy as

Quantum spin liquid (4,689 words) [view diff] exact match in snippet view article find links to article

fields to the electromagnetic field, giving rise to a power-law optical conductivity. Neutron scattering measurements of cesium chlorocuprate Cs2CuCl4

Subir Sachdev (3,193 words) [view diff] exact match in snippet view article find links to article

Dirk; Georges, Antoine (26 May 2023). "Reconciling scaling of the optical conductivity of cuprate superconductors with Planckian resistivity and specific

Graphene (27,661 words) [view diff] exact match in snippet view article find links to article

Gusynin, V P; Sharapov, S G; Carbotte, J P (17 January 2007). "Magneto-optical conductivity in graphene". Journal of Physics: Condensed Matter. 19 (2): 026222

Thomas Vogt (2,506 words) [view diff] exact match in snippet view article find links to article

investigated the cubic structure of CaCu3Ti4O12, a material with a large optical conductivity, ruling out ferroelectricity in favor of relaxor-like dynamics responsible