Spectral Systems Design and architecture for plasma diagnostics and physical chemistry including instrumentation for – LIBS, VUV, DUV, VIS, NIR, FTIR, Atomic, Laser Spectroscopy, Fluorescence, Raman, FTIR and Hyper-spectral Microscopy.

Technology Evaluation and Interdisciplinary R&D.

Plasma diagnostics, energy transfer and kinetics in gas phase.

Design of laser and spectral systems in chemical, material science, or bioapplications.

Setup and optimization of metrology or QC processes immersed in industrial or R&D settings.

Transducers interfacing with Windows7 kernel. Multiphysics modeling and signal processing from sensors (including capacitive).

Instruments electronics and commercially deployable software. Development and experimental validation of algorithms for imaging and analytical applications, scientific programming.

Hardware accelerated algorithms VHDL-FPGA, GPU, CUDA, Matlab, Simulink, COMSOL, Xilinx VHDL IP-cores and MicroBlaze, NET-OS7.x-Eclipse IDE.

Development of commercial software for spectroscopic systems using Matlab language and expert toolboxes.

Hardware architecture for connectivity with Windows KMDF level, WHQL. Windows, Windows CE, USB – Cypress firmware development for instrumentation. Web enabled wireless chemical sensors.

Implementation of EM-CCD, iCCD Cameras, Single Point Detectors, FTIR spectrometers, Dispersive Spectrometers for 1-D or 2-D imaging general spectroscopy, sensors for physical chemistry or life sciences.

Ergonomically friendly GUI designs with live data fusion and hardware interfacing. 

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To read more about ChemLed's applications please see:

Laser Focus World March 1995 pg. 75
Diode-arrays-may-light-up-compact-spectrometers

also please visit

http://www.chemled-technologies.com/15201.html

to learn more about our other projects