# Binospec: A Wide-field Imaging Spectrograph for the MMT

**Authors:** Daniel Fabricant, Robert Fata, Harland Epps, Thomas Gauron, Mark, Mueller, Joseph Zajac, Stephen Amato, Jack Barberis, Henry Bergner, Patricia, Brennan, Warren Brown, Igor Chilingarian, John Geary, Vladimir Kradinov,, Brian McLeod, Matthew Smith, Deborah Woods

arXiv: 1905.03320 · 2019-06-12

## TL;DR

Binospec is a versatile wide-field imaging spectrograph for the MMT, offering high throughput, adjustable resolution, and active alignment features, enabling efficient spectroscopic observations across two adjacent fields.

## Contribution

This paper introduces Binospec, a new wide-field imaging spectrograph with high throughput, flexible slit configurations, and active flexure control, optimized for the MMT telescope.

## Key findings

- System throughput peaks at ~30%.
- Resolutions range from 1300 to over 5000.
- Active flexure control maintains alignment under varying conditions.

## Abstract

Binospec is a high throughput, 370 to 1000 nm, imaging spectrograph that addresses two adjacent 8' by 15' fields of view. Binospec was commissioned in late 2017 at the f/5 focus of the 6.5m MMT and is now available to all MMT observers. Aperture masks cut from stainless steel with a laser cutter are used to define the entrance apertures that range from 15' long slits to hundreds of 2" slitlets. System throughputs, including the MMT's mirrors and the f/5 wide-field corrector peak at ~30%. Three reflection gratings, duplicated for the two beams, provide resolutions ($\lambda$/$\Delta \lambda$) between 1300 and $>$5000 with a 1" wide slit. Two through-the-mask guiders are used for target acquisition, mask alignment, guiding, and precision offsets. A full-time Shack-Hartmann wave front sensor allows continuous adjustment of primary mirror support forces, telescope collimation and focus. Active flexure control maintains spectrograph alignment and focus under varying gravity and thermal conditions.

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Source: https://tomesphere.com/paper/1905.03320