Document detail
ID

oai:arXiv.org:2406.02306

Topic
Astrophysics - High Energy Astroph... Astrophysics - Cosmology and Nonga... Astrophysics - Astrophysics of Gal... General Relativity and Quantum Cos... High Energy Physics - Phenomenolog...
Author
Zwick, Lorenz Soyuer, Deniz D'Orazio, Daniel J. O'Neill, David Derdzinski, Andrea Saha, Prasenjit Blas, Diego Jenkins, Alexander C. Kelley, Luke Zoltan
Category

sciences: astrophysics

Year

2024

listing date

6/12/2024

Keywords
gravitational signals cruise mission astrophysics
Metrics

Abstract

With the recent announcement by NASA's Planetary Science and Astrobiology Decadal Survey 2023-2032, a priority flagship mission to the planet Uranus is anticipated.

Here, we explore the prospects of using the mission's radio Doppler tracking equipment to detect gravitational waves (GWs) and other analogous signals related to dark matter (DM) over the duration of its interplanetary cruise.

By employing a methodology to stack tracking data in combination with Monte-Carlo Markov-Chain parameter recovery tests, we show that the mission will be sensitive to GWs over the wide frequency range of $3\times 10^{-9}$ Hz to $10^{-1}$ Hz, provided that tracking data is taken consistently over a large fraction of the cruise duration.

Thus, the mission has the potential to fill the gap between pulsar timing and space-based-interferometry GW observatories.

Within this assumption, we forecast the detection of $\mathcal{\mathcal{O}}(1 - 100)$ individual massive black hole binaries using two independent population models.

Additionally, we determine the mission's sensitivity to both astrophysical and primordial stochastic gravitational wave backgrounds, as well as its capacity to test, or even confirm via detection, ultralight DM models.

In all these cases, the tracking of the spacecraft over its interplanetary cruise would enable coverage of unexplored regions of parameter space, where signals from new phenomena in our Universe may be lurking.

;Comment: Submitted to Pr.D.

Comments welcome!

Zwick, Lorenz,Soyuer, Deniz,D'Orazio, Daniel J.,O'Neill, David,Derdzinski, Andrea,Saha, Prasenjit,Blas, Diego,Jenkins, Alexander C.,Kelley, Luke Zoltan, 2024, Bridging the micro-Hz gravitational wave gap via Doppler tracking with the Uranus Orbiter and Probe Mission: Massive black hole binaries, early universe signals and ultra-light dark matter

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