Illuminating the cell with a laser results in the emission of photons with a wavelength in
the infrared spectrum range.
Not exact matches
When the Webb launches in 2018, its gear will include a folding mirror and instruments that will work in the
infrared range of the electromagnetic
spectrum to reveal the universe's oldest galaxies.
Armed with data from Dawn's Visible and
Infrared Mapping Spectrometer, De Sanctis and colleagues examined a broad range of spectra for the entire Cereian surface, including the crucial infrared wave
Infrared Mapping Spectrometer, De Sanctis and colleagues examined a broad
range of
spectra for the entire Cereian surface, including the crucial
infrared wave
infrared wavelengths.
The scientists found that light reemerged from the film at a tight
range of frequencies in the
infrared portion of the
spectrum.
For example, plain gold nanorods of different lengths may allow effective plasmonic absorption in the near -
infrared range for use in solar energy conversion with improved harvesting of solar
spectrum.
Satellite instruments such as those on GOES can detect water vapor in the
infrared spectrum between the 6.7 to 7.3 micrometer wavelength
ranges.
NESSI will be able to see a wide
range of wavelengths in the near -
infrared region of the light
spectrum.
While this specific frequency
range sits between
infrared waves and microwaves, the approach should be applicable for almost any frequency of the electromagnetic
spectrum.
The nanolasers emit rays in the near -
infrared range, but they could shoot light in other frequencies, including the visual
spectrum, with alterations to the shape or material.
But additional research presented at the meeting may boost their efficiency: teams from Tokyo University of Science and Notre Dame both revealed new types of dyes that could extend the
spectrum of light captured by such cells into the
infrared range.
They lack enough mass to sustain nuclear fusion but they are hot enough to glow in the
infrared range of the light
spectrum.
As ICREA Prof. at ICFO Gerasimos Konstantatos, expert in quantum dot - graphene research comments, «we engineered the QDs to extend to the short
infrared range of the
spectrum (1100 - 1900nm), to a point where we were able to demonstrate and detect the night glow of the atmosphere on a dark and clear sky enabling passive night vision.
Increasingly, sensors can now go beyond the visible
range into the
infrared (IR) region of the
spectrum.
ALMA focuses on the region of the
spectrum between radio waves and
infrared light, the
range of frequencies at which complex molecules emit light when they undergo various transitions.
It involves using a reflectance spectroscopy setup to obtain optical reflectance
spectra of paper samples in the near -
infrared, visible, and near - ultraviolet wavelength
ranges.
The researchers studied 10 different laser setups
ranging in strength and pulse duration and across the
spectrum from ultraviolet to
infrared.
It is called reflective because it's the
spectrum which used in
infrared photography: «Wavelengths used for [
infrared] photography
range from about 700 nm to about 900 nm.»
And there no such thing as a greenhouse gas with absorption
spectra in the
infrared range.
BTW, no huge lens covering a wide enough
range of the
infrared spectrum exists to conduct your hypothetical experiment.