Crosslight Software Workshop
This hands-on workshop is free of charge, however, pre-registration is required as participants need to bring a laptop PC with pre-installed software and wireless internet access. To register for the workshop and the free software training licence, please e-mail your contact information to piprek(at)nusod.org. You will then receive detailed instructions from Crosslight on how to install the software on your laptop.
The workshop gives a hands-on introduction to high-end commercial simulation tools for electronic and optoelectronic devices (see below). These software packages self-consistently combine electrical, thermal, optical, and quantum-mechanical models in two or three dimensions. They can be applied to a large variety of semiconductor devices. The workshop explains and demonstrates the basic operation of these software tools. Model options and material parameters are discussed. The workshop also outlines strategies for obtaining realistic simulation results.
LASTIP: Two-dimensional (2D) simulation of laser diodes. Considers competition of multiple optical laser modes. Includes optical gain function for quantum well or bulk material with different models of spectral broadening, Coulomb interaction, and inter-band optical transitions integrated over k·p non-parabolic subbands. Import of externally generated data possible. Physical models of various laser effects and a material data base for many III-V semiconductor compounds are available.
APSYS: 2D/3D simulation of non-lasing devices. Features include: hot carrier transport, quantum mechanical tunneling, multi-quantum well structures, k·p band structure calculation, selfconsistent Poisson and Schroedinger equations solving, wave guiding in media with arbitrary complex refractive index distribution, transient models, small ac-signal analysis, interface and bulk charge trapping, piezoelectric effect, impact ionization, optical absorption and emission with exciton, and other many-body phenomena, LED ray tracing model to optimize device structure and packaging for light extraction efficiency, photon recycling effect, different relaxation models. Broad range of semiconductor devices, including classical or quantum-mechanical resonant tunneling diodes, bipolar and field effect transistors, LEDs, Detectors, Semiconductor Optical Amplifiers, Electro-Absorption Modulators.
PICS3D: Three-dimensional (3D) simulation of edge-emitting lasers (FP, DFB, DBR) and vertical-cavity laser diodes (VCSELs). It can also be used for waveguide photodetectors, semiconductor optical amplifiers, photo-pumping, and coupling to external passive optical components, i.e. external gratings (1st and 2nd order). It can calculate longitudinal distribution of carrier density, gain, optical field, and surface emission modes for 2nd order grading DFB. In addition to steady (dc) L-I, or I-V characteristics, it can be used for ac, and transient analysis of laser diodes, mode emission power, spectrum and chirp analysis, AM and FM small signal modulation response, and second harmonic analysis. It may include 3D current flow, vectorial waves, Poisson and Schroedinger Equations self-consistent solution in complex MQW with piezo-electric fields, and quantum-mechanical tunneling.
further information is available at