Michael T. Menzel scite author profile

The James Webb Space Telescope (JWST) is NASA’s flagship mission successor to the highly successful Hubble Space Telescope. It is an infrared observatory featuring a cryogenic 6.6 m aperture, deployable Optical Telescope Element (OTE) with a payload of four science instruments (SIs) assembled into an Integrated Science Instrument Module (ISIM) that provide imagery and spectroscopy in the near-infrared band between 0.6 and 5 μm and in the mid-infrared band between 5 and 28.1 μm. JWST was successfully launched on 2021 December 25 aboard an Ariane 5 launch vehicle. All 50 major deployments were successfully completed on 2022 January 8. The observatory performed all midcourse correction maneuvers and achieved its operational mission orbit around the Sun–Earth second Lagrange point (L2). All commissioning and calibration activities have been completed, and JWST has begun its science mission. This paper will provide a description of the driving requirements and their technical challenges, the engineering processes involved in the design formulation, the resulting observatory design, the verification programs that proved it to be flightworthy, and the measured on-orbit performance of the observatory. Since companion papers will describe the details of the OTE and SIs, this paper will concentrate on describing the key features of the observatory architecture that accommodates these elements, particularly those features and capabilities associated with accommodating the radiometric and image-quality performance.

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Systems engineering on the James Webb Space Telescope

Menzel

Bussman

Davis

et al. 2010

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The James Web Space Telescope (JWST) is a large, infrared-optimized space telescope scheduled for launch in 2014. System-level verification of critical performance requirements will rely on integrated observatory models that predict the wavefront error accurately enough to verify that allocated top-level wavefront error of 150 nm root-mean-squared (rms) through to the wave-front sensor focal plane is met. This paper describes the systems engineering approach used on the JWST through the detailed design phase.

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<title>Lockheed Martin team's Next Generation Space Telescope (NGST) reference architecture</title>

Martin

Lesyna

LeRoy

et al. 2000

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An update on the role of systems modeling in the design and verification of the James Webb Space Telescope

Muheim

Menzel

Mosier

et al. 2010

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Michael T. Menzel

James Webb Space Telescope (JWST) Observatory architecture and performance

The Design, Verification, and Performance of the James Webb Space Telescope

Systems engineering on the James Webb Space Telescope

<title>Lockheed Martin team's Next Generation Space Telescope (NGST) reference architecture</title>

An update on the role of systems modeling in the design and verification of the James Webb Space Telescope

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