The Hot Neptune Initiative (HONEI)

IF 5.8 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Astronomy & Astrophysics Pub Date : 2025-09-19 DOI:10.1051/0004-6361/202556081

F. Manni, L. Naponiello, L. Mancini, S. Vissapragada, K. Biazzo, A. S. Bonomo, D. Polychroni, D. Turrini, D. Locci, A. Maggio, V. D’Orazi, M. Damasso, C. Briceño, D. R. Ciardi, C. A. Clark, K. A. Collins, D. W. Latham, N. Law, M. López-Morales, M. B. Lund, L. Malavolta, A. W. Mann, G. Mantovan, D. Nardiello, M. Pinamonti, D. J. Radford, R. P. Schwarz, A. Shporer, A. Sozzetti, C. N. Watkins, S. W. Yee, C. Ziegler, T. Zingales

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引用次数: 0

Abstract

Context. The formation of Neptune planets with orbital periods shorter than ten days remains uncertain. They might have developed similarly to their longer-period counterparts, emerged from rare collisions between smaller planets, or be the remnant cores of stripped giant planets. Characterising a large number of such planets is important for advancing our understanding of how they form and evolve.Aims. We aim to confirm the planetary nature and characterise the physical and orbital properties of a close-in Neptune-type transiting exoplanet candidate revealed by TESS around the star TOI-5795 (V = 10.7 mag), 162 pc away from the Sun.Methods. We monitored TOI-5795 with the HARPS spectrograph for two months to quantify any periodic variations in its radial velocity (RV), necessary to estimate the mass of the smaller companion. We jointly analysed these RV measurements and the TESS photometry. We excluded contaminating sources as the origin of the detected signal using high-angular-resolution speckle and adaptive optical imaging.Results. We find that the parent star is a metal-poor ([Fe/H] = −0.27 ± 0.07) G3 V star (T_{eff_{= 5718 ± 50 K), with a radius of R_{*_{= 1.082 ± 0.026 R_{⊙_{, a mass of M_{⋆_{= 0.901_{−0.037_{^{+0.055^{M_{⊙_{and an age of 10.2_{−3.3_{^{+2.5^{Gyr. We confirm the planetary nature of the candidate, which can now be named TOI-5795 b. We estimate that the planet has an orbital period of P_{orb_{= 6.1406325 ± 0.0000054 days and an orbital eccentricity compatible with zero. With a mass of 23.66_{−4.60_{^{+4.09^{M_{⊕_{, a radius of 5.62 ± 0.11 R_{⊕_{, and an equilibrium temperature of 1136 ± 18 K, it can be considered a hot super-Neptune at the edge of the so-called Neptune desert. The transmission spectroscopy metric of TOI-5795 b is ≈100, which makes it an interesting target for probing the chemical composition of its atmosphere. We simulated planet-formation processes but found almost no successful matches to the observed planet’s mass and orbit, suggesting that post-formation dynamical events may have shaped its current state. We also performed an atmospheric-evolution study of TOI-5795 b, finding that this planet likely experienced significant atmospheric stripping due to prolonged high-energy irradiation from its parent star.}}}}}}}}}}}}}}}}}}}}}}}}}}}}

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热海王星计划（HONEI）

上下文。轨道周期短于10天的海王星行星的形成仍不确定。它们的形成过程可能与较长时期的恒星类似，可能是由较小行星之间的罕见碰撞产生的，也可能是被剥离的巨行星的残余核心。描述大量这样的行星的特征对于提高我们对它们如何形成和演化的理解是很重要的。我们的目标是确认一颗近距离海王星型过境系外行星的行星性质，并描述其物理和轨道特性，这颗系外行星是由TESS在距离太阳162 pc的恒星TOI-5795 （V = 10.7等）周围发现的。我们用HARPS光谱仪对TOI-5795进行了两个月的监测，以量化其径向速度（RV）的任何周期性变化，这对于估计较小伴星的质量是必要的。我们联合分析了这些RV测量结果和TESS光度测量结果。我们使用高角分辨率散斑和自适应光学成像排除了作为检测信号来源的污染源。我们发现母星是一颗低金属（[Fe/H] =−0.27±0.07）G3 V星（Teff = 5718±50 K），半径R* = 1.082±0.026 R⊙，质量M - - = 0.901−0.037+0.055 M⊙，年龄10.2−3.3+2.5 Gyr。我们确认了这颗候选行星的行星性质，现在可以将其命名为TOI-5795 b。我们估计这颗行星的轨道周期为Porb = 6.1406325±0.0000054天，轨道偏心率与零兼容。它的质量为23.66−4.60+4.09 M⊕，半径为5.62±0.11 R⊕，平衡温度为1136±18 K，可以被认为是一颗位于所谓海王星沙漠边缘的热超级海王星。TOI-5795 b的透射光谱度量为≈100，这使其成为探测其大气化学成分的有趣目标。我们模拟了行星的形成过程，但发现几乎没有与观测到的行星的质量和轨道成功匹配，这表明形成后的动力学事件可能塑造了它的当前状态。我们还对TOI-5795 b进行了大气演化研究，发现这颗行星可能由于其母恒星长时间的高能辐射而经历了显著的大气剥离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore
10.20

自引率
27.70%

发文量
2105

审稿时长
1-2 weeks

期刊介绍： Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.

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