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Main Authors: Peng, Yihang, Kislyakova, Kristina, Zheng, Donghao, Zhang, Zhongtian, Deng, Jie
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.25092
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author Peng, Yihang
Kislyakova, Kristina
Zheng, Donghao
Zhang, Zhongtian
Deng, Jie
author_facet Peng, Yihang
Kislyakova, Kristina
Zheng, Donghao
Zhang, Zhongtian
Deng, Jie
contents Electromagnetic induction heating has recently been proposed as an important internal heat source in the mantles of rocky exoplanets. However, its dependence on planetary interior properties remains poorly constrained. Here we construct electrical conductivity profiles for super-Earth mantles considering different temperatures and compositions, and evaluate induction heating in super-Earth mantles in both solid and partially molten states. We find that high mantle temperature, iron content, and melt fraction all suppress the overall induction heating efficiency due to increased mantle conductivity and magnetic shielding. In GJ 486b, induction heating likely exceeds both radiogenic heating and tidal heating, driving persistent surface volcanism and early volatile depletion, whereas HD 3167b and GJ 357b experience insignificant induction heating due to weak stellar magnetic fields. Our findings highlight induction heating as a critical factor in the thermal and atmospheric evolution of close-in super-Earths around magnetically active stars.
format Preprint
id arxiv_https___arxiv_org_abs_2509_25092
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Induction Heating in Super-Earths: A Thermochemical Perspective
Peng, Yihang
Kislyakova, Kristina
Zheng, Donghao
Zhang, Zhongtian
Deng, Jie
Earth and Planetary Astrophysics
Electromagnetic induction heating has recently been proposed as an important internal heat source in the mantles of rocky exoplanets. However, its dependence on planetary interior properties remains poorly constrained. Here we construct electrical conductivity profiles for super-Earth mantles considering different temperatures and compositions, and evaluate induction heating in super-Earth mantles in both solid and partially molten states. We find that high mantle temperature, iron content, and melt fraction all suppress the overall induction heating efficiency due to increased mantle conductivity and magnetic shielding. In GJ 486b, induction heating likely exceeds both radiogenic heating and tidal heating, driving persistent surface volcanism and early volatile depletion, whereas HD 3167b and GJ 357b experience insignificant induction heating due to weak stellar magnetic fields. Our findings highlight induction heating as a critical factor in the thermal and atmospheric evolution of close-in super-Earths around magnetically active stars.
title Induction Heating in Super-Earths: A Thermochemical Perspective
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2509.25092