Add to ORKGWe present the optical design and performance of the Ultra-Compact Imaging Spectrometer (UCIS) currently under development at Caltech's Jet Propulsion Laboratory. The new instrument demonstrates a low optical bench mass of less than 0.5 kg and compact size that enables Mars Rover or other in situ planetary applications. UCIS is a F/4, wide field (30deg) design, covering the spectral range 500-2600 nm and is enabled by a simple all aluminum two-mirror telescope and Offner spectrometer. We discuss here the optical design and alignment method that enables this compact and low mass imaging spectrometer and demonstrate successful spectrometer alignment with smile and keystone levels at 2-3% of a pixel width
We present instrument concepts for in-situ reflectance spectroscopy over a spatial resolution range ...
The fSPEx instrument is an innovative optical payload for planetary exploration which integrates a C...
Exoplanet imaging is driving a race to higher contrast imaging, both from earth and from space. Next...
The Ultra-Compact Imaging Spectrometer (UCIS) is a miniature telescope and spectrometer system inten...
Advances in several key sensor technologies make it possible now to build a high performance, very c...
The concept we describe is an integrated instrument (a Pluto Integrated Camera Spectrometer, PICS) t...
The ultra-compact imaging spectrometer is a miniature imaging spectrometer that has been designed f...
Recently developed tunable MEMS Fabry- Perot interferometers based on Ag thin-film mirrors[1] have e...
The scientific objectives of the 2020 ExoMars rover mission are to search for traces of past or pres...
The High Resolution Imaging Science Experiment (HiRISE) camera will be launched in August 2005 onboa...
Small telescopes coupled to high resolution spectrometers are powerful tools for Doppler planet sear...
We are developing the design for the Lyman-Ultraviolet (LUV) Imaging Spectrograph, LUVIS to propose ...
<p> We design and implement a portable hyperspectral imaging spectrometer, which has high spectral ...
In this paper, we introduce a novel concept for miniaturized spectral imaging instrument which can b...
© (2019) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE).High-resolution spectro...
We present instrument concepts for in-situ reflectance spectroscopy over a spatial resolution range ...
The fSPEx instrument is an innovative optical payload for planetary exploration which integrates a C...
Exoplanet imaging is driving a race to higher contrast imaging, both from earth and from space. Next...
The Ultra-Compact Imaging Spectrometer (UCIS) is a miniature telescope and spectrometer system inten...
Advances in several key sensor technologies make it possible now to build a high performance, very c...
The concept we describe is an integrated instrument (a Pluto Integrated Camera Spectrometer, PICS) t...
The ultra-compact imaging spectrometer is a miniature imaging spectrometer that has been designed f...
Recently developed tunable MEMS Fabry- Perot interferometers based on Ag thin-film mirrors[1] have e...
The scientific objectives of the 2020 ExoMars rover mission are to search for traces of past or pres...
The High Resolution Imaging Science Experiment (HiRISE) camera will be launched in August 2005 onboa...
Small telescopes coupled to high resolution spectrometers are powerful tools for Doppler planet sear...
We are developing the design for the Lyman-Ultraviolet (LUV) Imaging Spectrograph, LUVIS to propose ...
<p> We design and implement a portable hyperspectral imaging spectrometer, which has high spectral ...
In this paper, we introduce a novel concept for miniaturized spectral imaging instrument which can b...
© (2019) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE).High-resolution spectro...
We present instrument concepts for in-situ reflectance spectroscopy over a spatial resolution range ...
The fSPEx instrument is an innovative optical payload for planetary exploration which integrates a C...
Exoplanet imaging is driving a race to higher contrast imaging, both from earth and from space. Next...