Products / High Performance Spectroscopy
Near Infrared Optical Coherence Tomography (OCT) Solutions
BaySpec’s all new DeepViewTM Fourier or Spectral-Domain (SD) OCT Spectral Engine is compatible with a variety of high speed digital line scan cameras enabling simultaneous coverage of multiple wavelengths for precise and rapid OCT measurements. The DeepViewTM Spectral Engine provides convenience for researchers and OEM users assembling spectral-domain optical coherence tomography (SD-OCT), white light interferometry (WLI) or VIS-NIR spectroscopy systems. This flat-field spectral analyzer design is based on highly efficient transmission Volume Phase Grating (VPG) and is compatible with a variety of digital line scan cameras covering the wide wavelength ranges. The spectral engine can be configured for various fiber optic inputs and is customizable via grating inserts to match the spectral bandwidth and center wavelength of the users’ light source
User selected wavelength and bandwidth between 1000 and 1500 nm
OCT spectral engine with no moving parts
High throughput , high resolution volume phase grating
Highly flexible and customizeable architecture; select center wavelength and spectral bandwidth for your OEM application
Easy to use GUI for capture and data processing
Available with popular linescan cameras
BaySpec’s all new DeepViewTM Fourier or Spectral-Domain (SD) OCT Spectral Engine is compatible with a variety of high speed digital line scan cameras enabling simultaneous coverage of multiple wavelengths for precise and rapid OCT measurements. The DeepViewTM Spectral Engine provides convenience for researchers and OEM users assembling spectral-domain optical coherence tomography (SD-OCT), white light interferometry (WLI) or VIS-NIR spectroscopy systems. This flat-field spectral analyzer design is based on highly efficient transmission Volume Phase Grating (VPG) and is compatible with a variety of digital line scan cameras covering the wide wavelength ranges. The spectral engine can be configured for various fiber optic inputs and is customizable via grating inserts to match the spectral bandwidth and center wavelength of the users’ light source
