How We Found Our Stars Post date October 6, 2025 Post author By EScholar: Electronic Academic Papers for Scholars Post categories In dust-destruction-region, exoplanet-migration, herbig-stars, hot-jupiters, intermediate-mass-stars, planet-formation, protoplanetary-disks, stellar-magnetospheres
Are We on the Verge of a Breakthrough in Understanding Planet Formation? Post date October 6, 2025 Post author By EScholar: Electronic Academic Papers for Scholars Post categories In dust-destruction-region, exoplanet-migration, herbig-stars, hot-jupiters, intermediate-mass-stars, planet-formation, protoplanetary-disks, stellar-magnetospheres
A Unified Model for Hot Jupiter Orbits? Evidence for Gas Disk Truncation Across Stellar Masses Post date October 6, 2025 Post author By EScholar: Electronic Academic Papers for Scholars Post categories In dust-destruction-region, exoplanet-migration, herbig-stars, hot-jupiters, intermediate-mass-stars, planet-formation, protoplanetary-disks, stellar-magnetospheres
Dust or Gas? The Data That Could Rewrite Planet Formation Theory Post date October 6, 2025 Post author By EScholar: Electronic Academic Papers for Scholars Post categories In dust-destruction-region, exoplanet-migration, herbig-stars, hot-jupiters, intermediate-mass-stars, planet-formation, protoplanetary-disks, stellar-magnetospheres
Magnetospheric Truncation as the Limiting Factor for Hot Jupiter Orbits Across Stellar Masses Post date October 6, 2025 Post author By EScholar: Electronic Academic Papers for Scholars Post categories In dust-destruction-region, exoplanet-migration, herbig-stars, hot-jupiters, intermediate-mass-stars, planet-formation, protoplanetary-disks, stellar-magnetospheres
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