Topic: optoelectronics Goto Github
Some thing interesting about optoelectronics
Some thing interesting about optoelectronics
optoelectronics,Optimization and inverse design of photonic crystals using deep reinforcement learning
User: arcadianlee
optoelectronics,This resiprocity contains my assignments on the graduate level course Semiconductor Optoelectronic Devices.
User: filippos-dakis
optoelectronics, A tool created for optical and optoelectronic laboratory processes.
User: gopac94
optoelectronics,This project aims to provide a very simple slow (~15KHz) but low noise photodiode front end, for the use in building scientific instrumentation.
User: jproj3cts
optoelectronics,I-V characteristics of a few types of organic light emitting diode (OLED)
User: kmoraza
optoelectronics,Computes the gain from interband laser diode
User: laurentnevou
Home Page: https://ecee.colorado.edu/~bart/book/book/chapter4/ch4_10.htm
optoelectronics,Computes the threshold gain in various kind of cavity
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Lasing_threshold
optoelectronics,Band diagram and Field of 2D photonic cristal
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Photonic_crystal
optoelectronics,Computes eigen frequencies in a 1D micro-cavity
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Optical_microcavity
optoelectronics,Computes eigen frequencies in a 2D micro-cavity
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Optical_microcavity
optoelectronics,Computes eigen frequencies in a 3D micro-cavity
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Optical_microcavity
optoelectronics,Computes effective mode in a 1D wave guide
User: laurentnevou
optoelectronics,Computes effective mode in a 2D wave guide
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Waveguide_(optics)
optoelectronics,Optical Transfer Matrix Solver
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Transfer-matrix_method_(optics)
optoelectronics,Optical Transfer Matrix Solver with index dispersion
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Transfer-matrix_method_(optics)
optoelectronics,Computes the electronic band structure of Zinc Blende semiconductor
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Electronic_band_structure
optoelectronics,Computes the electronic band structure of bulk Wurtzite semiconductors
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/K%C2%B7p_perturbation_theory
optoelectronics,Computes the electronic band structure of bulk ZB semiconductor with various k.p models
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/K%C2%B7p_perturbation_theory
optoelectronics,Computes the electronic band structure of bulk ZB semiconductor with k.p models WITH STRAIN
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/K%C2%B7p_perturbation_theory
optoelectronics,Poisson solver for semiconductor hetero-structures
User: laurentnevou
Home Page: https://www.iue.tuwien.ac.at/phd/entner/node9.html
optoelectronics,1D Schroedinger solver in semiconductor with effective mass
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Schr%C3%B6dinger_equation
optoelectronics,1D Time independent Schroedinger equation solver
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Schr%C3%B6dinger_equation
optoelectronics,1D Schroedinger solver in semiconductor with non-parabolicity
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Schr%C3%B6dinger_equation
optoelectronics,1D Schroedinger solver in semiconductor with non-parabolicity in Zinc-Blende
User: laurentnevou
optoelectronics,2D Time independent Schroedinger equation solver
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Schr%C3%B6dinger_equation
optoelectronics,2D time independent Schroedinger equation solver on inhomogeneous grid
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Schr%C3%B6dinger_equation
optoelectronics,3D Time independent Schroedinger equation solver
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Schr%C3%B6dinger_equation
optoelectronics,Schrodinger-Poisson solver in 1D in the conduction band
User: laurentnevou
Home Page: https://www.iue.tuwien.ac.at/phd/goes/dissse12.html
optoelectronics,Schrodinger-Poisson solver in 1D demonstrator
User: laurentnevou
Home Page: https://www.iue.tuwien.ac.at/phd/goes/dissse12.html
optoelectronics,Schrodinger-Poisson solver with Dirichlet boundary condition
User: laurentnevou
Home Page: https://www.iue.tuwien.ac.at/phd/goes/dissse12.html
optoelectronics,Computes the density of states in Bulk and quantum well
User: laurentnevou
Home Page: https://en.wikipedia.org/wiki/Density_of_states
optoelectronics,Library for TLP241A.
Organization: mikroelektronika
Home Page: https://www.mikroe.com/opto-3-click
optoelectronics,Library for LTV-817S.
Organization: mikroelektronika
Home Page: https://www.mikroe.com/opto-4-click
optoelectronics,a compilation of notebooks for optoelectronics engineering
Organization: photonics-project
optoelectronics,Sensors are widely used in many kinds of robotics systems for controlling, op- timizing, and monitoring the operation and the performance. They measure a large number of useful physical parameters. Among these, force and torque are primary measurements. This work presents a complete design and implementa- tion of the uni-axis force sensor. This force sensor is based on an optoelectronic sensor which is known as a light fork. This design can be used for various robotics applications to measure the force. The simplicity of design and its low cost, make it more feasible to measure the force applied by different robots by the deformation of a properly designed mechanical structure integrated into the actuation module. This force sensor provides good linearity and sensitivity for the applied force. The work contains the complete scheme of electronics schematics with PCB design. The electronics design contains the STM32f405 microcontroller, which has internal memory to save the calibration data. The mechanical design is also described in this work with proper dimension and length to construct the obstacle and case of the sensor. The design of the sen- sor can be modified for calibration and integration with the robotics module. The methodology of this work describes the basic working principle and also a proper mechanism to measure the force applied on the top surface of the sensor with the arrangement of four optoelectronics sensors.
User: razainno
optoelectronics,Master's Thesis in optoelectronics and silicon photonics in the scope of the T.I.M.E. Double Degree program between UCLouvain (Belgium) and Keio University (Japan).
User: simonsanta
optoelectronics,Volume Local Analysis -- Chest Wall Plethysmography using Opto-Electronic Sensor Data
User: stefanomoriconi
optoelectronics,
User: vpreatoni
optoelectronics,
User: vstoykovbg
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