&lt;title&gt;Thermal control of the space telescope high-speed photometer&lt;/title&gt;

Richards, E. E.; Percival, J. W.; Sitzman, Jerry C.; Jones, T. E.

doi:10.1117/12.158773

Cited by 1 publication

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“…That is, power to any of the heaters could be programmed on and o † so as to keep the HSP at the desired temperature, as read by 29 thermistors ; temperatures could be changed as conditions warranted. Such a thermal control system is extremely Ñexible and more reliable than one of conventional design (see Richards et al 1993). The HSP remained within its temperature spe-ciÐcations throughout its orbital life.…”

Section: Fig 2èblock Diagram Of the Hsp Electronicsmentioning

confidence: 99%

TheHubble Space Telescope's High‐Speed Photometer

Bless

Richards

Bosh

et al. 1999

PUBL ASTRON SOC PAC

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We present an overview of the performance of the High Speed Photometer (HSP), one of the Ðve original instruments on the Hubble Space T elescope (HST ). As its name implies, the HSP was designed for precise high time resolution photometry from visual to ultraviolet wavelengths ; sample times as short as 10.7 ks were possible. Three image dissectors along with 23 di †erent broad-and narrowband Ðlters spanning the spectral range from 1200 to 7500 were used for photometry of stars and galaxies. A fourth image A dissector with associated polarization analyzers allowed the measurement of broadband linear polarization at near-ultraviolet wavelengths. Simultaneous observations in the blue and red could be made using one of the dissectors and a photomultiplier. Except for an instability in the sensitivity of one of the image dissectors and a reduced throughput in a specialized observational mode, the instrument met or exceeded operational speciÐcations until it was removed from HST in 1993 December. The ability of HSP to carry out its primary program, however, was nearly totally compromised by the poor performance of the telescope, i.e., the spherical aberration of the primary mirror that greatly ampliÐed the e †ects of large spacecraft pointing jitter and telescope "" breathing. ÏÏ As a consequence, the real possibility of HST /HSP opening a new era of astronomical photometry was lost. HSP data a †ected by various telescope problems, as well as data in which these complications were relatively small, are shown. The excellent condition of the HSP after its return to Earth is described brieÑy.

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Section: Fig 2èblock Diagram Of the Hsp Electronicsmentioning

confidence: 99%