Two new preprints from Astrophysics Letters describe updates to the Magellan InfraRed Multi-Object Spectrograph (MIRMOS), a planned next-generation instrument for the 6.5m Magellan telescopes at Las Campanas Observatory in Chile. The project includes both multi-object spectroscopy (MOS) and integral field spectroscopy (IFS), along with near-infrared imaging. In MOS mode, MIRMOS targets are selected using a cryogenic mechanism that can configure up to 92 slits across a 13'×3' field of view. The slit configuration can be reconfigured in real time to adjust slit widths for seeing conditions, switch masks, or form a long slit. For IFS mode, MIRMOS uses an image-slicer style integral field unit (IFU) on a linear stage so it can move into the beam during IFS observations or be stored during MOS use. The IFU provides an approximately 18''×26'' field of view built from 0.84''×26'' slices. One preprint reports a design change: the IFU is moved deeper into the instrument to enable a “virtual-style” slicer, replacing earlier designs that required freeform pupil mirrors to meet packaging constraints near the instrument’s focal surface. The second preprint summarizes the overall instrument design and places it at the end of the preliminary design phase.
MIRMOS project updates its integral-field unit design for planned Magellan IR spectrograph
Two new preprints from Astrophysics Letters describe updates to the Magellan InfraRed Multi-Object Spectrograph (MIRMOS), a planned next-generation instrument for the 6.5m Magellan telescopes at Las C...
- MIRMOS is planned for the 6.5m Magellan telescopes at Las Campanas Observatory in Chile.
- It is designed to provide R~3700 spectroscopy over 0.886–2.404 µm (Y, J, H, K bands), plus imaging over 0.7–0.886 µm.
- In MOS mode, a cryogenic mechanism can configure up to 92 slits across a 13'×3' field of view and can reconfigure in real time.
- In IFS mode, an image-slicer IFU on a linear stage provides an ~18''×26'' field of view using 0.84''×26'' slices.
- A reported IFU update moves the unit deeper in the instrument to support a virtual-style slicer, removing the need for freeform pupil mirrors while adding a re-imaging doublet before the slicer mirrors.
arXiv:2607.14050v1 Announce Type: new Abstract: The Magellan InfraRed Multi-Object Spectrograph (MIRMOS) is a planned next generation multi-object and integral field spectrograph for the 6.5m Magellan telescopes at Las Campanas Observatory in Chile. MIRMOS will perform $\rm R\sim3700$ spectroscopy over a simultaneous wavelength range of 0.886 - 2.404um (Y, J, H, K bands) in addition to imaging over the range of 0.7 - 0.886um. The integral field mode of operation for MIRMOS will be achieved via an image slicer style integral field unit (IFU) located on a linear stage to facilitate movement into the beam during use or storage while operating in multi-object mode. The IFU will provide an $\rm\sim18''\times26''$ field of view (FoV) made up of $\rm0.84''\times26''$ slices. This will be the largest FoV IFS operating at these wavelengths from either the ground or space, making MIRMOS an ideal instrument for a wide range of science cases including studying the high redshift circumgalactic medium and emission line tracers from ionized and molecular gas in nearby galaxies. We present here an update on the IFU design from our 2024 proceeding. Previously we utilized a re-imaging style slicer which required freeform pupil mirrors in order to achieve the required image quality while obeying significant packaging constraints near the instrument focal surface. In order to reduce the manufacturing cost and decouple the IFU from the configurable slit unit used in multi-object mode, we have moved the IFU deeper into the instrument, allowing for a switch to a virtual style IFU. This now requires a re-imaging doublet before the slicer mirrors, but removes the need for any freeform surfaces. We present here the optical design and predicted performance of the new MIRMOS IFU along with a conceptual design for the opto-mechanical system which will move the IFU between its active and stored positions.
2 hours agoarXiv:2607.14052v1 Announce Type: new Abstract: The Magellan InfraRed Multi-Object Spectrograph (MIRMOS) will be a next generation multi-object (MOS) and integral field spectrograph (IFS) for the 6.5m Magellan telescopes at Las Campanas Observatory in Chile. MIRMOS will perform R~3700 spectroscopy over a simultaneous wavelength range of 0.886-2.404um (Y, J, H, and K bands) in addition to imaging over the range of 0.7-0.886um. Target selection in the MOS mode is achieved through a cryogenic mechanism capable of making up to 92 slits over a 13'x3' field of view (FoV). This mechanism can be reconfigured in real time to adjust slit widths for seeing conditions, change to a different mask, or form a long slit. The IFS mode of operation for MIRMOS will be achieved via an image slicer style integral field unit (IFU) which will provide an ~18"x26" FoV made up of 0.84"x26" slices. MIRMOS's design will allow it to address a wide range of science cases from performing spectroscopy of high-redshift galaxies as well as high signal-to-noise transmission spectroscopy of exoplanet atmospheres with the MOS/long slit mode, while also having the largest FoV IFS operating on a large telescope at these wavelengths. We will describe here the design of the MIRMOS instrument -- now at the end of the preliminary design phase.
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