Mark I. Stockman
Georgia State University
PlasmonOpticsPhysicsDielectricSurface plasmonAttosecondElectronFemtosecondNanotechnologyUltrashort pulseAtomic physicsMaterials scienceCondensed matter physicsNanophotonicsGrapheneSpaserOptoelectronicsLaserElectric fieldExcitation
371Publications
66H-index
15kCitations
Publications 341
Newest
#1S. A. Oliaei Motlagh (GSU: Georgia State University)H-Index: 1
#2Vadym Apalkov (GSU: Georgia State University)H-Index: 15
Last. Mark I. Stockman (GSU: Georgia State University)H-Index: 66
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In two-dimensional hexagonal semiconductors, we show that an applied ultrafast strong optical pulse results in a finite conduction band population and generates both longitu- dinal and transverse electric currents during and after the pulse.
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We theoretically study the interaction of an ultrafast intense linearly polarized optical pulse with monolayers of transition metal dichalcogenides (TMDCs). Such a strong pulse redistributes electrons between the bands and generates femtosecond currents during the pulse. Due to the large bandwidth of the incident pulse, this process is completely off-resonant. While in TMDCs the time-reversal symmetry is conserved, the inversion symmetry is broken and these monolayers have the axial symmetry alo...
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#2A. S. Kuch'yanov (RAS: Russian Academy of Sciences)H-Index: 4
Last. Mark I. Stockman (GSU: Georgia State University)H-Index: 66
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Plasmonic nanolasers (spasers) are of intense interest, attributable to their ability to generate a high-intensity coherent radiation. We infiltrated a three-dimensional silica-based photonic crystal (PhC) film with spasers, composed of spherical gold cores, surrounded by silica shells with dye molecules. In spasers, the gold nanospheres supported the surface plasmons and the dye molecules transferred incoming optical energy to the surface plasmons. Our experiments show that such a structure, co...
2 CitationsSource
#1Nisal De Silva (Monash University)
#2Tharindu Warnakula (Monash University)H-Index: 1
Last. Malin Premaratne (Monash University, Clayton campus)H-Index: 36
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Electronic excitation energy transfer is a ubiquitous process that has generated prime research interest since its discovery. Recently developed variational polaron transformation-based second-order master equation is capable of interpolating between Forster and Redeld limits with exceptional accuracy. Forms of spectral density functions studied so far through the variational approach provide theoretical support for various experiments. Recently introduced Ohmic like spectral density function t...
1 CitationsSource
#1Rupesh Ghimire (GSU: Georgia State University)H-Index: 1
Last. Mark I. Stockman (GSU: Georgia State University)H-Index: 66
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We theoretically study a topological nanospaser, which consists of a silver nanospheroid and MoS_2monolayer ake of a circular shape. The metal nanospheroid acts as a plasmonic nanoresonator that supports two rotating modes, which are coupled to the corresponding valleys of MoS_2 We apply external circularly polarized light that selectively pumps only one of the valleys of MoS_2 The generated spaser dynamics strongly depends on the size (radius) of the MoS_2nanoflake. For small radius...
#1Tharaka Perera (Monash University, Clayton campus)H-Index: 1
#2Sarath D. Gunapala (California Institute of Technology)H-Index: 31
Last. Malin Premaratne (Monash University, Clayton campus)H-Index: 36
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Plasmonic nanoshells show great promise in a wide range of quantum applications due to the tunability of the plasmon frequency across a broad spectral range. With the aim of giving a clear detailed...
6 CitationsSource
#1Mark I. Stockman (GSU: Georgia State University)H-Index: 66
A history and a glimpse into the future of spaser (acronym for “surface plasmon amplification by stimulated emission of radiation”) is provided. The spaser (also called a plasmonic nanolaser) is an active nanosystem including a gain medium and a nanoplasmonic metal core. It generates coherent intense nanolocalized fields. Theoretically predicted in 2003 by Bergman and Stockman, the spaser grew into a large fundamental research and application field with thousands of publications. We review a few...
4 CitationsSource
#1Qingcao Liu (LMU: Ludwig Maximilian University of Munich)H-Index: 7
#2Lennart Seiffert (University of Rostock)H-Index: 8
Last. Matthias F. Kling (LMU: Ludwig Maximilian University of Munich)H-Index: 60
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Strong-field laser-matter interactions in nanoscale targets offer unique avenues for the generation and detailed characterization of matter under extreme conditions. Field-driven, subcycle ionizati...
6 CitationsSource
#2S. Azar Oliaei Motlagh (GSU: Georgia State University)H-Index: 2
Last. Mark I. StockmanH-Index: 66
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We study theoretically the ultrafast electron dynamics of three-dimensional Weyl semimetals in the field of a laser pulse. For a circularly-polarized pulse, such dynamics is governed by topological resonance, which manifests itself as a specific conduction band population distribution in the vicinity of the Weyl points. The topological resonance is determined by the competition between the topological phase and the dynamic phase and depends on the handedness of a circularly polarized pulse. Also...
6 CitationsSource