By weaving some quantum wizardry, Singapore's Agency for Science, Technology and Research (A * STAR) researchers have achieved something that appears to be a contradiction in terms — using visible light to perform
spectroscopy at infrared wavelengths.
Not exact matches
WISE 0855 is too faint for conventional
spectroscopy at optical or near -
infrared wavelengths, but thermal emission from the deep atmosphere
at wavelengths in a narrow window around 5 microns offered an opportunity where
spectroscopy would be «challenging but not impossible,» he said.
SPHERE opens new horizons in the study of young brown dwarfs and giant exoplanets thanks to high - contrast imaging capabilities
at optical and near -
infrared wavelengths, as well as high signal - to - noise
spectroscopy in the near -
infrared from low (R ~ 30 - 50) to medium resolutions (R ~ 350).
Infrared Multi-object Spectrometer (IRMS) The Infrared Multi-object Spectrometer (IRMS) will allow close to diffraction - limited imaging and slit spectroscopy over a 2 arcminute diameter field - of - view at near - infrared wavelengths (0.8 —
Infrared Multi-object Spectrometer (IRMS) The
Infrared Multi-object Spectrometer (IRMS) will allow close to diffraction - limited imaging and slit spectroscopy over a 2 arcminute diameter field - of - view at near - infrared wavelengths (0.8 —
Infrared Multi-object Spectrometer (IRMS) will allow close to diffraction - limited imaging and slit
spectroscopy over a 2 arcminute diameter field - of - view
at near -
infrared wavelengths (0.8 —
infrared wavelengths (0.8 — 2.5 μm).
Infrared Imaging Spectrometer (IRIS) The Infrared Imaging Spectrometer (IRIS) will be mounted on the observatory Adaptive Optics system and be capable of diffraction - limited imaging and integral - field spectroscopy at near - infrared wavelengths (0.8 —
Infrared Imaging Spectrometer (IRIS) The
Infrared Imaging Spectrometer (IRIS) will be mounted on the observatory Adaptive Optics system and be capable of diffraction - limited imaging and integral - field spectroscopy at near - infrared wavelengths (0.8 —
Infrared Imaging Spectrometer (IRIS) will be mounted on the observatory Adaptive Optics system and be capable of diffraction - limited imaging and integral - field
spectroscopy at near -
infrared wavelengths (0.8 —
infrared wavelengths (0.8 — 2.5 μm).