# Another Servicing Mission to Extend Hubble Space Telescope's Science   past the Next Decade

**Authors:** Mercedes L\'opez-Morales, Kevin France, Francesco R. Ferraro, Rupali, Chandar, Steven Finkelstein, Stephane Charlot, Gilda Ballester, Melina. C., Bersten, Jos\'e M. Diego, Gast\'on Folatelli, Domingo Garc\'ia-Senz, Mauro, Giavalisco, Rolf A. Jansen, Patrick L. Kelly, Thomas Maccarone, Seth, Redfield, Pilar Ruiz-Lapuente, Steve Shore, Nitya Kallivayalil, and 229, co-signers

arXiv: 1907.04886 · 2019-07-12

## TL;DR

This paper advocates for a servicing mission to upgrade and extend the Hubble Space Telescope's operational life, emphasizing its unique UV capabilities and scientific importance amidst upcoming observatories.

## Contribution

It proposes a detailed plan for a servicing mission to prolong Hubble's life, ensuring continued UV and optical astrophysics research beyond the next decade.

## Key findings

- Hubble's UV capabilities are unmatched and crucial for key astrophysics questions.
- Servicing can significantly extend Hubble's operational lifetime.
- Upgrading Hubble will maximize scientific return and synergy with future observatories.

## Abstract

The Hubble Space Telescope has produced astonishing science over the past thirty years. Hubble's productivity can continue to soar for years to come provided some worn out components get upgraded. While powerful new ground-based and space telescopes are expected to come online over the next decade, none of them will have the UV capabilities that make Hubble a unique observatory. Without Hubble, progress in UV and blue optical astrophysics will be halted. Observations at these wavelengths are key for a range of unresolved astrophysics questions, ranging from the characterization of solar system planets to understanding interaction of galaxies with the intergalactic medium and the formation history of the universe. Hubble will remain our only source of high-angular resolution UV imaging and high-sensitivity UV spectroscopy for the next two decades, offering the ability for continued unique science and maximizing the science return from complementary observatories. Therefore, we recommend that NASA, ESA, and the private sector study the scientific merit, technical feasibility, and risk of a new servicing mission to Hubble to boost its orbit, fix aging components, and expand its instrumentation. Doing so would: 1) keep Hubble on its path to reach its unmet full potential, 2) extend the mission's lifetime past the next decade, which will maximize the synergy of Hubble with other upcoming facilities, and 3) enable and enhance the continuation of scientific discoveries in UV and optical astrophysics.

## Full text

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## Figures

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Source: https://tomesphere.com/paper/1907.04886