Saved in:
Bibliographic Details
Main Authors: Handley, Luke B., Howard, Andrew W., Dai, Fei, Rubenzahl, Ryan A., Giacalone, Steven, Isaacson, Howard, Ong, J. M. Joel, Carmichael, Theron W., Li, Yaguang, Lubin, Jack, Premnath, Pranav H., Rogers, Claire J., Nagarajan, Pranav, Gilbert, Gregory J., Fulton, Benjamin, Gibson, Steven R., Roy, Arpita, Edelstein, Jerry, Smith, Christopher
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.23713
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866911552068648960
author Handley, Luke B.
Howard, Andrew W.
Dai, Fei
Rubenzahl, Ryan A.
Giacalone, Steven
Isaacson, Howard
Ong, J. M. Joel
Carmichael, Theron W.
Li, Yaguang
Lubin, Jack
Premnath, Pranav H.
Rogers, Claire J.
Nagarajan, Pranav
Gilbert, Gregory J.
Fulton, Benjamin
Gibson, Steven R.
Roy, Arpita
Edelstein, Jerry
Smith, Christopher
author_facet Handley, Luke B.
Howard, Andrew W.
Dai, Fei
Rubenzahl, Ryan A.
Giacalone, Steven
Isaacson, Howard
Ong, J. M. Joel
Carmichael, Theron W.
Li, Yaguang
Lubin, Jack
Premnath, Pranav H.
Rogers, Claire J.
Nagarajan, Pranav
Gilbert, Gregory J.
Fulton, Benjamin
Gibson, Steven R.
Roy, Arpita
Edelstein, Jerry
Smith, Christopher
contents The angle between stellar spin axes and planetary orbits -- stellar obliquity -- probes the dynamics of planetary migration and evolution. The obliquities of giant planets have been extensively studied because they are the most easily measured. Smaller planets, while more difficult to measure, have the advantage of better reflecting the dynamics of planetary systems because they trigger negligible back-reactions onto the host star. This paper introduces a new observational campaign called the Small, Low-mass Oblique Planets Experiment (SLOPE) survey with the Keck Planet Finder (KPF) spectrograph, and presents four new obliquity measurements. The SLOPE survey focuses on planets smaller than Saturn across a variety of system architectures. The sky-projected obliquities of the four planets measured -- TOI-1386b, TOI-480b, TOI-4596b, and TOI-1823b -- are all consistent with spin-orbit alignment. We validate the planetary nature of TOI-4596b with a significant obliquity detection. Including these measurements, we conducted a statistical analysis of the obliquities of sub-Saturn size planets in different planetary system architectures. Compared to other architectures, those in compact multi-planet systems reside in orbits that appear preferentially aligned with the stellar equator with 6 sigma confidence.
format Preprint
id arxiv_https___arxiv_org_abs_2603_23713
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The KPF-SLOPE Survey - Small, Compact Multi-Planet Systems Appear Spin-Orbit Aligned
Handley, Luke B.
Howard, Andrew W.
Dai, Fei
Rubenzahl, Ryan A.
Giacalone, Steven
Isaacson, Howard
Ong, J. M. Joel
Carmichael, Theron W.
Li, Yaguang
Lubin, Jack
Premnath, Pranav H.
Rogers, Claire J.
Nagarajan, Pranav
Gilbert, Gregory J.
Fulton, Benjamin
Gibson, Steven R.
Roy, Arpita
Edelstein, Jerry
Smith, Christopher
Earth and Planetary Astrophysics
The angle between stellar spin axes and planetary orbits -- stellar obliquity -- probes the dynamics of planetary migration and evolution. The obliquities of giant planets have been extensively studied because they are the most easily measured. Smaller planets, while more difficult to measure, have the advantage of better reflecting the dynamics of planetary systems because they trigger negligible back-reactions onto the host star. This paper introduces a new observational campaign called the Small, Low-mass Oblique Planets Experiment (SLOPE) survey with the Keck Planet Finder (KPF) spectrograph, and presents four new obliquity measurements. The SLOPE survey focuses on planets smaller than Saturn across a variety of system architectures. The sky-projected obliquities of the four planets measured -- TOI-1386b, TOI-480b, TOI-4596b, and TOI-1823b -- are all consistent with spin-orbit alignment. We validate the planetary nature of TOI-4596b with a significant obliquity detection. Including these measurements, we conducted a statistical analysis of the obliquities of sub-Saturn size planets in different planetary system architectures. Compared to other architectures, those in compact multi-planet systems reside in orbits that appear preferentially aligned with the stellar equator with 6 sigma confidence.
title The KPF-SLOPE Survey - Small, Compact Multi-Planet Systems Appear Spin-Orbit Aligned
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2603.23713