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Picture of Miroslav Kolesik

Miroslav Kolesik

Member of the Graduate Faculty | Professor, Optical Sciences

James C Wyant Coll Optical Sci

Research Area

nonlinear optics, optical physics, photonics, laser physics, quantum mechanics, materials science, wave propagation, material science, optical fibers, ultrafast optics, supercontinuum generation, atmospheric physics, optics, laser technology, metastable states, remote sensing, pulse propagation, high-harmonic generation, optical materials, light-matter interactions, atomic physics, laser filamentation, infrared radiation, infrared spectroscopy, quantum physics, laser propagation, ultrafast phenomena, simulation methods, gases, modeling

Strong-Coupling Regime in Electromagnetic Pulses Interacting with Free Carriers and Plasmas in Bulk and Structured Media
Active·2022·$207.5K·
External
Principal Investigator (PI)
electromagnetic pulses, plasma, structured media, strong-coupling regime, free carriers
Dynamics Induced Symmetry Breaking in Nonlinear Optical Materials
Active·2021·$691.1K / $1.2M·
External
Co-Investigator (COI)
nonlinear optics, symmetry breaking, dynamics, optical materials, material science
Theory and Simulation of High Power LWIR Pulse Propagation, Nonlinear Saturation and Interactions with Remote Targets
Active·2018·$634.7K / $3.2M·
External
Co-Investigator (COI)
laser propagation, nonlinear optics, remote sensing, high power systems, simulation methods
High-Intensity, Ultrafast Light-Matter Interactions in Transparent Solids
2019·$224.4K / $280.5K·
External
Principal Investigator (PI)
light-matter interactions, ultrafast phenomena, transparent solids, high-intensity, material science
Non-Hermitian and Open Systems: Form Fundamentals to Applications
2018·$365K·
External
Principal Investigator (PI)
quantum mechanics, optics, nonlinear systems, waveguide, mathematical physics

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Recent

Which part of the Brillouin zone contributes most to the high-harmonic radiation?

2023

brillouin zone, high-harmonic radiation, contributions, materials science, quantum mechanics

Numerical discreteness and dephasing in high-harmonic calculations in solids

2023

solid state physics, high-harmonic generation, quantum mechanics, numerical methods, quantum materials

Higher order long-wave infrared Bessel beams generating tubular plasma waveguides in the atmosphere

2023

laser plasma interaction, atmospheric physics, long-wave infrared beams, waveguide formation, bessel beams

Using Cross-phase Modulation to Transfer Coherence Between a Cr: Zns Frequency Comb and its Optical Pump

2023

nonlinear optics, frequency combs, optical coherence, laser spectroscopy, quantum optics

Open boundary conditions for the simulation of leaky modes

2023

boundary conditions, simulation, leaky modes, fluid dynamics, numerical modeling

The existence of multi-octavening conical emission from ultrafast LWIR pulse filamentation

2023

ultrafast laser physics, laser filamentation, infrared radiation, nonlinear optics, spectral broadening

Assessment of tight-binding models for high-harmonic generation in zinc blende materials

2023

material science, high-harmonic generation, tight-binding models, zinc blende materials, quantum physics

Nonlinear localization of high energy long wave laser pulses in fully correlated 3D turbulence

2022

laser pulses, turbulence, nonlinear localization, high energy

Full-Brillouin-zone calculation of high-order harmonic generation from solid-state media

2022

high-order harmonic generation, solid-state media, brillouin-zone calculation, full calculation, high-order generation

Few-cycle 10 mu$m multi-terawatt pulse self-compression in a gas-filled multi-pass cell: a numerical experiment

2022

ultrafast optics, high-energy laser physics, nonlinear optics, gas-filled hollow-core fibers, numerical simulation

Moysey Brio
Jerome Moloney
Alan Newell
Karl Glasner
Masud Mansuripur

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UA Leading $7.5M Laser Research Project
2010

The Beam Propagation Method
Computational optics: Light-matter interactions
Physical Optics I
Computational Optics: Ultra Fast Pulses & Strong Field Light Matter Interactions
Physical Optics II

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6+ Collaborators

$5.1M / $10.2M Funding

140+ Publications