Basquiat's presence in the film is more spectral as a result.
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GOES-16 has three times more spectral channels than earlier generations of GOES satellites.
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And I could shapeshift—you get this more spectral sense of the self that is projecting the voice.
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Bess Wohl's "Make Believe," a cartoon-colored experiment of a play here at Hartford Stage, is more spectral than it looks.
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The sister satellites can also scan the Earth across more spectral bands than previous probes — 43 total, from visible to infrared and near infrared bands.
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The buzz of Apaches is heard overhead, but the helicopters themselves are never seen: they represent a force even more spectral than the monster haunting the streets of Baghdad.
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Capable of scanning the planet five times faster, at four times the spatial resolution, and in three times more spectral bands than current geostationary weather satellites, GOES-R is going to be a game changer for forecasting.
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Maureen herself sometimes seems more spectral than physical, even as her bodily presence, slipping in and out of rooms and clothes that don't belong to her, is the film's singular constant and the source of its curious emotional power.
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Like his Madrid-based contemporary Diego Velázquez, he depicted saints and other holy figures as earthbound men and women, though Murillo's religious works were tidier than Velázquez's, more spectral, and (later in his career) more influenced by the soft curves and bright tones of Venetian painting.
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Emily feels even more spectral in contrast to the all-too-concrete Soren, the primary love interest in Lisa Locascio's debut novel, "Open Me." Due to an administrative mix-up, the 18-year-old narrator, Roxana Olsen, who is supposed to be studying abroad in Paris with her best friend, has instead been sent to Denmark.
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If more spectral information is needed, multi-color or hyperspectral CRS can be used and the scanning speed or data quality will be compromised accordingly.
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Band-pass interference filter for laser experiments An interference filter or dichroic filter is an optical filter that reflects one or more spectral bands or lines and transmits others, while maintaining a nearly zero coefficient of absorption for all wavelengths of interest. An interference filter may be high-pass, low-pass, bandpass, or band-rejection. An interference filter consists of multiple thin layers of dielectric material having different refractive indices. There also may be metallic layers.
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HD 131496 is an evolved subgiant star in the constellation Boötes. With an apparent visual magnitude of 7.9 it is too faint to be visible to the naked eye. Stars like HD 131496 are sometimes referred to as "retired A-stars", since they would have been A-type stars while on the main sequence. This name is most commonly used in connection with the search for extrasolar planets, where they are useful because these evolved stars are cooler and have more spectral lines than their main sequence counterparts, making planet detection easier.
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The use of more spectral bands per eye eliminates the need to color process the image, required by the Dolby system. Evenly dividing the visible spectrum between the eyes gives the viewer a more relaxed "feel" as the light energy and color balance is nearly 50-50. Like the Dolby system, the Omega system can be used with white or silver screens. But it can be used with either film or digital projectors, unlike the Dolby filters that are only used on a digital system with a color correcting processor provided by Dolby.
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It is also known as spectral comb filtering or wavelength multiplex visualization The recently introduced Omega 3D/Panavision 3D system also uses this technology, though with a wider spectrum and more "teeth" to the "comb" (5 for each eye in the Omega/Panavision system). The use of more spectral bands per eye eliminates the need to color process the image, required by the Dolby system. Evenly dividing the visible spectrum between the eyes gives the viewer a more relaxed "feel" as the light energy and color balance is nearly 50-50. Like the Dolby system, the Omega system can be used with white or silver screens.
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It is also known as spectral comb filtering or wavelength multiplex visualization The recently introduced Omega 3D/Panavision 3D system also uses this technology, though with a wider spectrum and more "teeth" to the "comb" (5 for each eye in the Omega/Panavision system). The use of more spectral bands per eye eliminates the need to color process the image, required by the Dolby system. Evenly dividing the visible spectrum between the eyes gives the viewer a more relaxed "feel" as the light energy and color balance is nearly 50-50. Like the Dolby system, the Omega system can be used with white or silver screens.
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Specifically, the transmit duty cycle is so exceptionally low and pulse time so exceptionally short, that the electronics must be capable of extremely high instantaneous power to rival the average power of conventional radars. (Although it is true that UWB provides a notable gain in channel capacity over a narrow band signal because of the relationship of bandwidth in the Shannon–Hartley theorem and because the low receive duty cycle receives less noise, increasing the signal-to-noise ratio, there is still a notable disparity in link budget because conventional radar might be several orders of magnitude more powerful than a typical pulse-based radar.) So pulse-based UWB SAR is typically used in applications requiring average power levels in the microwatt or milliwatt range, and thus is used for scanning smaller, nearer target areas (several tens of meters), or in cases where lengthy integration (over a span of minutes) of the received signal is possible. Note, however, that this limitation is solved in chirped UWB radar systems. The principal advantages of UWB radar are better resolution (a few millimeters using commercial off-the-shelf electronics) and more spectral information of target reflectivity.
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