- Sensitivity of the Advanced LIGO detectors at the beginning of gravitational wave astronomy
- Measurement of thermal noise in multilayer coatings with optimized layer thickness
- Directive emission from defect-free dodecagonal photonic quasicrystals: A leaky wave characterization
- Mode confinement in photonic quasicrystal point-defect cavities for particle accelerators
- Genetically optimized metasurface pairs for wideband out-of-phase mutual response
- Metamaterial surface pairs genetically-optimized for wide-band out-of-phase mutual response
- Properties of defect modes in dodecagonal photonic quasicrystals
- Evidence of local effects in anomalous refraction and focusing properties of dodecagonal photonic quasicrystals
- Mode confinement in periodic and aperiodic PBG cavities
- A comparative study of directive emission from photonic quasicrystals
- A parametric study of the lensing properties of dodecagonal photonic quasicrystals
- Aperiodic-tiling-based mushroom-type high-impedance surfaces
- Perspectives on beam-shaping optimization for thermal-noise reduction in advanced gravitational-wave interferometric detectors: Bounds, profiles, and critical parameters
- A parametric study of negative refraction and superlensing in 12-fold symmetric photonic quasicrystals
- Analysis of modal propagation in slabs of photonic quasicrystals with Penrose-type lattice
- Analytic properties of a class of hyperboloidal beams in nearly-spheroidal Fabry-Perot optical cavities
- High-impedance surfaces with aperiodically-ordered textures
- Radiation from Fibonacci-type quasiperiodic arrays on dielectric substrates
- Directive emission from photonic quasicrystals with 12-fold symmetry
- Dual-polarized high-impedance ground planes based on grid-graph Hamiltonian paths for antenna applications
- Some electromagnetics engineering challenges in gravitational wave interferometry
- Progress and challenges developing a coating for next generation gravitational-wave detectors
- Scattering properties of one-dimensional aperiodically-ordered strip arrays based on two-symbol substitutional sequences
- Negative refraction and superlensing in photonic quasicrystals
- Metamaterial inclusions based on grid-graph Hamiltonian paths
- Localized modes in photonic quasicrystals with Penrose-type lattice
- Analytic structure and generalized duality relations for a family of hyperboloidal beams and supporting mirrors of potential interest for future gravitational wave detection interferometers
- Optimized multilayer dielectric mirror coatings for gravitational wave interferometers
- A comparative study of representative categories of EBG dielectric quasi-crystals
- Grid-graph Hamiltonian-path based inclusions for artificial magnetic conductors with reduced polarization sensitivity
- Parameterizing wave interactions with aperiodic order: threads in a tapestry
- Analytic structure of a family of hyperboloidal beams of potential interest for advanced LIGO
- Metamaterial inclusions based on grid-graph Hamiltonian paths
- High-frequency/short-pulse wave dynamics in ray-chaotic scenarios: Asurvey
- Radiation properties of one-dimensional random-like antenna arrays based on Rudin-Shapiro sequences
- LDOS analysis of the electromagnetic band-gap properties of certain categories of quasicrystals
- Parameterizing wave dynamics within a framework of `orderly disorder': Some examples
- Electromagnetic properties of space-filling wire structures based on grid-graph Hamiltonian paths: Some preliminary results
- Radiation and scattering from one-dimensional aperiodically-ordered structures based on two-letter substitutional sequences
- Wave-oriented data-processing of fields scattered by one-dimensional aperiodically-ordered structures
- Bandgap formation and multiple scattering in photonic quasicrystals
- Optimizing multilayered dielectric mirror coatings for thermal noise
- Parameterizing quasi-periodicity: generalized Poisson summation and its application to modified-Fibonacci antenna arrays
- Path and functional integrals in electromagnetics: Old and new
- Band gap formation and multiple scattering in photonic quasicrystals with a Penrose-type lattice
- Bandgap formation and multiple scattering in photonic quasicrystals
- Novel approaches to fire risk assessment/management: Background and perspectives
- Radiation properties of planar antenna arrays based on certain categories of aperiodic tilings
- Ray-chaotic footprints in deterministic wave dynamics: a test model with coupled Floquet-type and ducted-type mode characteristics
- Radiation properties of aperiodic-tiling planar antenna arrays
- Electromagnetic properties of aperiodic tilings: Background and preliminary new results
- Rejection properties of stochastic-resonance-based detectors of weak harmonic signals
- On wave dynamics pertaining to structures with aperiodic order
- Toward a full-wave-based electromagnetics approach to chaotic footprints in a complex deterministic environment: A test model with coupled Floquet-type and ducted-type mode characteristics
- SCRF detectors for gravitational waves
- Toward a full-wave-based electromagnetics approach to chaotic footprints in a complex deterministic environment: Preliminary results
- Ray chaos for new smart materials
- Analytical approximations for fundamental-mode field and dispersion equation of planar waveguides through the Stevenson-Pade approach
- Analytical approximations for lowest-order modes in graded-index slabs using Stevenson's series and Pade' approximants
- Bouncing-ray chaos for smart media
- From mode-stirred enclosures to electromagnetic Sinai billiards: Chaotic models of reverberation enclosures
- A model-based parameter estimation approach for numerical analysis of single-mode optical fibers
- Efficient numerical analysis of arbitrary single-mode optical fibers using Padè approximants
- A generalized Donsker-Kač formula to compute the fundamental modes in complex loaded waveguides
- Evaluation of stochastic-resonance-based detectors of weak harmonic signals in additive white Gaussian noise
- A comparison between stochastic resonance and matched filtering for continuous gravitational waves detection. The PSR case
- Applications of functional integration to electromagnetic boundary value problems: A survey
- Path integral computation of lowest order modes in arbitrary-shaped inhomogeneous waveguides
- Generalized Donsker-Kac formula for dominant modes in waveguides with complicated geometries and constitutive properties
- Wiener integral Monte Carlo approach to analyze the fundamental mode in complex transmission lines
- Cut-off frequency and dominant eigenfunction computation in complex dielectric geometries via Donsker-Kač formula and Monte Carlo method

© 2022 Fields & Waves Lab. This work is licensed under CC BY NC ND 4.0

Published with Wowchemy — the free, open source website builder that empowers creators.