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Conceptual Opto-Mechanical design of SHARP: a near-infrared multi-mode spectrograph conceived for the next-generation telescopes

by Riva, M , Scaccabarozzi, D , Conconi, P , Cascone, E , Portaluri, E , Scalera, M , Franzetti, P , Arosio, I , Fumana, M , Arcidiacono, C , Cianniello, V , Mahmoodzadeh, H , De Caprio, V , B Di Francesco , Eredia, C , Molinari, E , I Di Antonio , Saggin, B , G Di Rico , Saracco, P , Greggio, D

in Angular resolution / Extremely large telescopes / James Webb Space Telescope / Multi-conjugate adaptive optics / Near infrared radiation / Optical design / Project specifications

2025

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Conceptual Opto-Mechanical design of SHARP: a near-infrared multi-mode spectrograph conceived for the next-generation telescopes

in Angular resolution / Extremely large telescopes / James Webb Space Telescope / Multi-conjugate adaptive optics / Near infrared radiation / Optical design / Project specifications

2025

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Conceptual Opto-Mechanical design of SHARP: a near-infrared multi-mode spectrograph conceived for the next-generation telescopes

in Angular resolution / Extremely large telescopes / James Webb Space Telescope / Multi-conjugate adaptive optics / Near infrared radiation / Optical design / Project specifications

2025

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Paper

Conceptual Opto-Mechanical design of SHARP: a near-infrared multi-mode spectrograph conceived for the next-generation telescopes

Riva, M,

Scaccabarozzi, D,

Conconi, P,

Cascone, E,

Portaluri, E,

Scalera, M,

Franzetti, P,

Arosio, I,

Fumana, M,

Arcidiacono, C,

Cianniello, V,

Mahmoodzadeh, H,

De Caprio, V,

B Di Francesco,

Eredia, C,

Molinari, E,

I Di Antonio,

Saggin, B,

G Di Rico,

Saracco, P,

Greggio, D

2025

Overview

The next generation of Extremely Large Telescopes (ELTs), with their wide apertures and advanced Multi-Conjugate Adaptive Optics (MCAO) systems, will provide unprecedented sharp and deep observations, even surpassing the capabilities of James Webb Space Telescope (JWST). SHARP, a near-infrared (0.95-2.45 {\\mu}m) spectrograph, is designed to optimally exploit the collecting area and angular resolution of these forthcoming ELTs, and specifically optimized for the MCAO unit MORFEO at the ELT. SHARP includes two main units: NEXUS, a Multi-Object Spectrograph (MOS), and VESPER, a multi-Integral Field Unit. This paper outlines the opto-mechanical design of SHARP based on the scientific requirements of the project. The optical design is engineered to meet project specifications, featuring a compact mechanical structure that minimizes the required cryogenic power while ensuring ease of access for maintenance and straightforward assembly procedures.

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Publisher

Cornell University Library, arXiv.org

Subject

Angular resolution

/ Extremely large telescopes

/ James Webb Space Telescope

/ Multi-conjugate adaptive optics

/ Near infrared radiation

/ Optical design

/ Project specifications