English

A HERO for general relativity

General Relativity and Quantum Cosmology 2019-07-08 v1 Earth and Planetary Astrophysics Space Physics

Abstract

HERO (Highly Eccentric Relativity Orbiter) is a space-based mission concept aimed to perform several tests of post-Newtonian gravity around the Earth with a preferably drag-free spacecraft moving along a highly elliptical path fixed in its plane undergoing a relatively fast secular precession. We considered two possible scenarios: a fast, 4-hr orbit with high perigee height of 1,047km1,047\,\mathrm{km}, and a slow, 21-hr path with a low perigee height of 642km642\,\mathrm{km}. HERO may detect, for the first time, the post-Newtonian orbital effects induced by the mass quadrupole moment J2J_2 of the Earth which affects the semimajor axis aa via a secular trend of 412cmyr1\simeq 4-12\,\mathrm{cm\,yr}^{-1}, depending on the orbital configuration. Recently, the secular decay of the semimajor axis of the passive satellite LARES was measured with an error as little as 0.7cmyr10.7\,\mathrm{cm\,yr}^{-1}. Also the post-Newtonian spin dipole (Lense-Thirring) and mass monopole (Schwarzschild) effects could be tested to a high accuracy depending on the level of compensation of the non-gravitational perturbations. Moreover, the large eccentricity of the orbit would allow to constrain several long-range modified models of gravity and to accurately measure the gravitational red-shift as well. Each of the six Keplerian orbital elements could be individually monitored to extract the GJ2/c2GJ_2/c^2 signature, or they could be suitably combined in order to disentangle the post-Newtonian effect(s) of interest from the competing mismodeled Newtonian secular precessions induced by the zonal harmonic multipoles JJ_\ell of the geopotential. In the latter case, the systematic uncertainty due to the current formal errors σJ\sigma_{J_\ell} of a recent global Earth's gravity field model are better than 1%1\% for all the post-Newtonian effects considered, with a peak of 107\simeq 10^{-7} for the Schwarzschild-like shifts. [Abridged]

Keywords

Cite

@article{arxiv.1906.05728,
  title  = {A HERO for general relativity},
  author = {Lorenzo Iorio},
  journal= {arXiv preprint arXiv:1906.05728},
  year   = {2019}
}

Comments

LaTex2e, 35 pages, 9 tables, 4 figures

R2 v1 2026-06-23T09:52:51.399Z