2004
DOI: 10.1117/12.549150
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FISICA: the Florida image slicer for infrared cosmology and astrophysics

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Cited by 13 publications
(5 citation statements)
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“…One of the other techniques for building IFUs is to use slicing optics. Advanced image slicers [46][47][48] use powered optics machined out of monolithic blocks of metal to geometrically rearrange a 2-dimensional field of view into a linear pseudo-slit, which is then be dispersed by a spectrograph. The lenslet IFU has significantly looser specifications on the spectrograph optics because a lenslet array destroys the spatial information otherwise preserved by the slicing optics, which would otherwise be forced by the spectrograph optics to preserve all the way to the detector.…”
Section: Slenslitmentioning
confidence: 99%
See 1 more Smart Citation
“…One of the other techniques for building IFUs is to use slicing optics. Advanced image slicers [46][47][48] use powered optics machined out of monolithic blocks of metal to geometrically rearrange a 2-dimensional field of view into a linear pseudo-slit, which is then be dispersed by a spectrograph. The lenslet IFU has significantly looser specifications on the spectrograph optics because a lenslet array destroys the spatial information otherwise preserved by the slicing optics, which would otherwise be forced by the spectrograph optics to preserve all the way to the detector.…”
Section: Slenslitmentioning
confidence: 99%
“…The bolt-and-go approach has been used with great success for a variety of instruments, from the small (FISICA/FLAMINGOS-1 46 to large facility-class instruments such as CIRCE, [59][60][61] FRIDA, 47 and MIRADAS, 48 all of which implement the bolt-and-go method to precisely locate many if not all of their diamond-turned mirrors. As described in the previous SCALES/PSI-Red SPIE paper, 56 the bolt-and-go approach is a semikinematic mounting scheme that puts much of the onus of alignment into the opto-mechanical design instead of during the alignment phase.…”
Section: Bolt-and-gomentioning
confidence: 99%
“…This removes the onus of aligning some 84 mirrors in 14 separate arrays onto a single bench (note that this does not include the probe aft system with its additional 12 lens doublets and 48 mirrors!). Each mirror array is machined out of RSA-6061 aluminum, with the optics being plated with electroless nickel, diamond-turned, and then gold-coated (as in FISICA [6][7][8] and FRIDA 9,10 ). The optical mounts are also designed with precision location pinholes and bolt holes for mounting to the IFU bench.…”
Section: Radiusmentioning
confidence: 99%
“…36 These, together with the MPE imaging spectrometer, 37 were the concepts developed in the XXth century. In the XXIst century, several advances were deployed in the field, in systems such as: SPIFFI 38 in the VLT SINFONI instrument, the Florida Image Slicer for Infrared Cosmology and Astrophysics (FISICA), 39 MIRADAS 40 for GTC telescope or the image slicers of KMOS 41 and MUSE, 42 the Multi Unit Spectroscopic Explorer. Most recently, innovative image slicer designs have been employed that control the symmetry to overlap all intermediate pupil images; 4 combine the elements of the IFU with those of the spectrograph 43 or offer a collimated output beam.…”
Section: Image Slicersmentioning
confidence: 99%