Optics and Photonics H. A. Haus
... (b) utilize the analogy between dispersion managed soliton propagation and ultrashort pulse generation [2] PMD is now a topic of intense interest as fiber communications utilizes ever higher bit-rates. Many schemes for dispersion compensation have been developed, but all of them use adjustable compe ...
... (b) utilize the analogy between dispersion managed soliton propagation and ultrashort pulse generation [2] PMD is now a topic of intense interest as fiber communications utilizes ever higher bit-rates. Many schemes for dispersion compensation have been developed, but all of them use adjustable compe ...
Plasmonic waveguide filters with nanodisk resonators
... obtain results over a range of wavelengths of interest. ...
... obtain results over a range of wavelengths of interest. ...
A pulsed dye laser for photo-ionization of magnesium atoms
... avoided when a resonant multi-step photo-ionization process is used. The atoms are rst selectively excited on resonant transitions and then ionized. Hence, only the desired species will have a signi cant ionization probability. This process also allows for isotope selectivity, if the spectral width ...
... avoided when a resonant multi-step photo-ionization process is used. The atoms are rst selectively excited on resonant transitions and then ionized. Hence, only the desired species will have a signi cant ionization probability. This process also allows for isotope selectivity, if the spectral width ...
Associate Professor Shien
... (1). Investigation and application of WADM in a passive optical ring networks. Optical add/drop and optical cross-connect and are crucial functions in a metropolitan area network. The possible solutions for WADM are thin film based WADM, array waveguide grating (AWG) based WADM and fiber Bragg grati ...
... (1). Investigation and application of WADM in a passive optical ring networks. Optical add/drop and optical cross-connect and are crucial functions in a metropolitan area network. The possible solutions for WADM are thin film based WADM, array waveguide grating (AWG) based WADM and fiber Bragg grati ...
ellip
... The table below lists the refractive index n* = n - i k for different materials as well as the minimum or maximum angle of the analyzer and the half wavelength thickness when using a He/Ne laser and an incident angle of 70 degrees. The refractive indices from this table can be used to generate the Y ...
... The table below lists the refractive index n* = n - i k for different materials as well as the minimum or maximum angle of the analyzer and the half wavelength thickness when using a He/Ne laser and an incident angle of 70 degrees. The refractive indices from this table can be used to generate the Y ...
S.72-227 Digital Communication Systems
... – light collected from the other surface, other attached to a heat sink – no waveguiding – light coupling to multimode fibers easy Edge emitting LEDs: (ELED) 60 80 nm – like stripe geometry lasers but no optical feedback – easy coupling into multimode and single mode fibers Superluminescent L ...
... – light collected from the other surface, other attached to a heat sink – no waveguiding – light coupling to multimode fibers easy Edge emitting LEDs: (ELED) 60 80 nm – like stripe geometry lasers but no optical feedback – easy coupling into multimode and single mode fibers Superluminescent L ...
Two-dimensional control of light with light on metasurfaces
... Ideal performance requires a thin film or metasurface of deeply subwavelength thickness that absorbs 50% of a single beam illuminating the structure. Exploiting that the nanostructure of metasurfaces can be carefully engineered to achieve suitable optical properties and, guided by numerical modeling, ...
... Ideal performance requires a thin film or metasurface of deeply subwavelength thickness that absorbs 50% of a single beam illuminating the structure. Exploiting that the nanostructure of metasurfaces can be carefully engineered to achieve suitable optical properties and, guided by numerical modeling, ...
Measurement of the dispersion of air and of refractive index
... 2. Description of second harmonic interference spectroscopy and experimental setup Second harmonic generation is a coherent parametric nonlinear process in which phase information plays a crucial role. The coherence of the process allows implementing interferometric tools based on the relative deph ...
... 2. Description of second harmonic interference spectroscopy and experimental setup Second harmonic generation is a coherent parametric nonlinear process in which phase information plays a crucial role. The coherence of the process allows implementing interferometric tools based on the relative deph ...
PDF: Aspden et al 2016 b
... values for each photon. In a similar fashion, properties such as the energy, angular momentum, and polarization of each individual photon in the pair can be engineered, depending upon the experimental design, to have no definite values until a measurement is made.10,11 (Entanglement persists over th ...
... values for each photon. In a similar fashion, properties such as the energy, angular momentum, and polarization of each individual photon in the pair can be engineered, depending upon the experimental design, to have no definite values until a measurement is made.10,11 (Entanglement persists over th ...
calibration of the advanced ligo detectors for the discovery of the
... mirror of each detector. The laser The sensing function, digital filter function, and actuation function varies in power, causing a variation in combine to form the open loop transfer function. the force (from the recoil of photons) it produces on the mirror surface. This is called a "photon radiati ...
... mirror of each detector. The laser The sensing function, digital filter function, and actuation function varies in power, causing a variation in combine to form the open loop transfer function. the force (from the recoil of photons) it produces on the mirror surface. This is called a "photon radiati ...
slides
... The other possibility is the reason we’re doing the experiment in the first place. If the quantum waves corresponding to each photon behave in any way like classical waves, then we could expect th ...
... The other possibility is the reason we’re doing the experiment in the first place. If the quantum waves corresponding to each photon behave in any way like classical waves, then we could expect th ...
Self-Organization of Atomic Samples in Resonators and Collective Light Forces.
... detuning, the experimentally critical parameter is not the force magnitude, that can be very large due to the stimulated nature of the emission process, but the necessary intensity to reach threshold at the given particle polarizability, sample density and temperature, and light detuning. To identif ...
... detuning, the experimentally critical parameter is not the force magnitude, that can be very large due to the stimulated nature of the emission process, but the necessary intensity to reach threshold at the given particle polarizability, sample density and temperature, and light detuning. To identif ...
Strong Dispersive and Nonlinear Optical Properties of
... corresponding to AlGaAs or chalcogenide17, 18 glass waveguides operating near 1.55 µm. Using these material parameters, figure 4 displays a systems chart displaying the tradeoff between switching energy and bandwidth for resonators of varying diameter. It is of technological interest to note that ultr ...
... corresponding to AlGaAs or chalcogenide17, 18 glass waveguides operating near 1.55 µm. Using these material parameters, figure 4 displays a systems chart displaying the tradeoff between switching energy and bandwidth for resonators of varying diameter. It is of technological interest to note that ultr ...
