Colton Fruhling
YOU?
Author Swipe
View article: Spatio-Temporal Photonic Metalattice
Spatio-Temporal Photonic Metalattice Open
When coherent light interacts with an ordered lattice whose periodicity is comparable to its wavelength, constructive interference produces a diffraction pattern as in crystallography, where x-rays are employed to reveal atomic structures.…
View article: Floquet engineering of polaritonic amplification in dispersive photonic time crystals
Floquet engineering of polaritonic amplification in dispersive photonic time crystals Open
In this study, we investigate the dynamics of dispersive photonic time crystals (PTCs) and their potential applications for controlling light-matter interaction. Using the Lorentz-Drude as dispersive material model, we analyze the effects …
View article: Time-refraction near the critical angle and angular streaking with attosecond resolution [Invited]
Time-refraction near the critical angle and angular streaking with attosecond resolution [Invited] Open
We study the time-refraction of optical waves as they propagate through a time-varying slab and find the frequency shift associated with the abrupt change in the refractive index. We discover a geometrical mechanism responsible for an ultr…
View article: Tailoring optical response of MXene thin films
Tailoring optical response of MXene thin films Open
Due to their attractive optical properties, 2D MXenes have garnered interest in nanophotonic and optoelectronic applications. However, tuning their properties typically requires the iterative synthesis of MXenes with a specific set of prop…
View article: Spatio-spectral optical fission in time-varying subwavelength layers
Spatio-spectral optical fission in time-varying subwavelength layers Open
View article: Two-dimensional-lattice-confined single-molecule-like aggregates
Two-dimensional-lattice-confined single-molecule-like aggregates Open
View article: Floquet Engineering of Polaritonic Amplification in Dispersive Photonic Time Crystals
Floquet Engineering of Polaritonic Amplification in Dispersive Photonic Time Crystals Open
In this study, we investigate the dynamics of dispersive photonic time crystals (PTCs) and their potential applications for controlling light-matter interaction. By employing the Lorentz-Drude model, we analyze theoretically and via numeri…
View article: Photophysics and Carrier Dynamics of Lasing in Quasi-2D Lead Halide Perovskites
Photophysics and Carrier Dynamics of Lasing in Quasi-2D Lead Halide Perovskites Open
Quasi-2D perovskites have recently been extensively studied due to their narrow-bandwidth-tunable emission, solution processability, and applicability as optical gain media. Quasi-2D perovskites are composed of inorganic perovskite crystal…
View article: Theory-guided synthesis of a 2D tungsten titanium MXene from a covalently bonded layered carbide for electrocatalysis
Theory-guided synthesis of a 2D tungsten titanium MXene from a covalently bonded layered carbide for electrocatalysis Open
Two-dimensional transition metal carbides, nitrides, and carbonitrides, known as MXenes, hold potential in electrocatalytic applications. Tungsten (W) based-MXenes are of particular interest as they are predicted to have low overpotentials…
View article: All-optical modulation with single-photons using electron avalanche
All-optical modulation with single-photons using electron avalanche Open
The distinctive characteristics of light, such as high-speed and low-loss propagation, low cross-talk and low power consumption, along with photons unique quantum properties, make it most suitable for various applications in communication,…
View article: Wide‐Range Angle‐Sensitive Plasmonic Color Printing on Lossy‐Resonator Substrates
Wide‐Range Angle‐Sensitive Plasmonic Color Printing on Lossy‐Resonator Substrates Open
A sustainable, lithography‐free process is demonstrated for generating non fading plasmonic colors with a prototype device that produces a wide range of vivid colors in red, green, and blue (RGB) ([0‐1], [0‐1], [0‐1]) color space from viol…
View article: Wide-range Angle-sensitive Plasmonic Color Printing on Lossy-Resonator Substrates
Wide-range Angle-sensitive Plasmonic Color Printing on Lossy-Resonator Substrates Open
We demonstrate a sustainable, lithography-free process for generating non fading plasmonic colors with a prototype device that produces a wide range of vivid colors in red, green, and blue (RGB) ([0-1], [0-1], [0-1]) color space from viole…
View article: Coherent Random Lasing in Subwavelength Quasi‐2D Perovskites
Coherent Random Lasing in Subwavelength Quasi‐2D Perovskites Open
Quasi‐2D lead halide perovskites have garnered increasing interest as lasing gain media. Relatively simple fabrication, high refractive index, and unique quantum well structure encourage their use in traditional cavity lasers and cavity‐fr…
View article: Photonic time crystals: A materials perspective
Photonic time crystals: A materials perspective Open
Recent advances in ultrafast, large-modulation photonic materials have opened the door to many new areas of research. One specific example is the exciting prospect of photonic time crystals. In this perspective, we outline the most recent …
View article: Photonic time-crystals - fundamental concepts [Invited]
Photonic time-crystals - fundamental concepts [Invited] Open
Photonic Time-Crystals (PTCs) are materials in which the refractive index varies periodically and abruptly in time. This medium exhibits unusual properties such as momentum bands separated by gaps within which waves can be amplified expone…
View article: Photonic time crystals: A materials perspective
Photonic time crystals: A materials perspective Open
Recent advances in ultrafast, large-modulation photonic materials have opened the door to many new areas of research. One specific example is the exciting prospect of photonic time crystals. In this perspective, we outline the most recent …
View article: Photonic time crystals: a materials perspective [Invited]
Photonic time crystals: a materials perspective [Invited] Open
Recent advances in ultrafast, large-modulation photonic materials have opened the door to many new areas of research. One specific example is the exciting prospect of photonic time crystals. In this perspective, we outline the most recent …
View article: Transverse oscillating bubble enhanced laser-driven betatron X-ray radiation generation
Transverse oscillating bubble enhanced laser-driven betatron X-ray radiation generation Open
View article: Transverse Oscillating Bubble Enhanced Laser-driven Betatron X-ray Radiation Generation
Transverse Oscillating Bubble Enhanced Laser-driven Betatron X-ray Radiation Generation Open
Ultrafast high-brightness X-ray pulses have proven invaluable for a broad range of research. Such pulses are typically generated via synchrotron emission from relativistic electron bunches using large-scale facilities. Recently, significan…
View article: Experimental observation of polarization-resolved nonlinear Thomson scattering of elliptically polarized light
Experimental observation of polarization-resolved nonlinear Thomson scattering of elliptically polarized light Open
We report experimental results from a study of nonlinear Thomson scattering of elliptically polarized light. Polarization-resolved radiation patterns of the scattered light are measured as a function of the elliptical polarization state of…
View article: Attosecond electron bunch measurement with coherent nonlinear Thomson scattering
Attosecond electron bunch measurement with coherent nonlinear Thomson scattering Open
We present a novel method for measurement of ultrashort electron-bunch duration, in principle, as short as zeptosecond (10−21 s). The method employs nonlinear Thomson scattering of relativistically intense laser light, and takes advantage …
View article: High energy X-ray Compton spectroscopy via iterative reconstruction
High energy X-ray Compton spectroscopy via iterative reconstruction Open
View article: Electron Trapping from Interactions between Laser-Driven Relativistic Plasma Waves
Electron Trapping from Interactions between Laser-Driven Relativistic Plasma Waves Open
Interactions of large-amplitude relativistic plasma waves were investigated experimentally by propagating two synchronized ultraintense femtosecond laser pulses in plasma at oblique crossing angles to each other. The electrostatic and elec…
View article: Control over high peak-power laser light and laser-driven X-rays
Control over high peak-power laser light and laser-driven X-rays Open