Interstellar object 3I/ATLAS has quickly become one of the most closely watched astronomical events of the decade. As only the third confirmed interstellar object ever detected, every new observation of 3I/ATLAS is reshaping how astronomers think about the chemistry, origins, and long-distance evolution of small bodies formed around other stars. In this interview, astrophysicists Dr. Thomas Puzia and Rohan Rahatgaonkar discuss the latest research as new spectroscopy, VLT monitoring, ALMA data, and upcoming JWST and Hubble observations reveal a complex story about this ancient visitor.Extreme NiI/FeI abundance ratio in the coma of the interstellar comet 3I/ATLAS⋆https://arxiv.org/pdf/2509.2605300:00 Introduction00:18 Guest introductions: Thomas Puzia and Rohan Rahatgaonkar02:21 What makes 3I/ATLAS unusual03:16 First signs of nickel and iron outgassing06:20 Formation clues from the ice line and heavy elements07:20 How 3I/ATLAS differs from typical solar system comets08:04 Comparing 3I/ATLAS to 2I/Borisov09:46 Nickel and iron abundance differences with solar system comets16:06 Could spacecraft intercept future interstellar objects?16:39 Is anything in 3I/ATLAS “too weird” to be natural?17:06 What post-perihelion data may reveal18:24 What exotic elements would mean (phosphorus, etc.)19:20 Why we know 3I/ATLAS is interstellar20:52 Ancient galactic environments 3I/ATLAS traveled through24:01 How strange could future interstellar objects get?28:07 Are biological building blocks present?29:39 Surface reflection limits and what JWST could do30:04 When Hubble and Webb will observe 3I/ATLAS next33:26 The effect of the U.S. government shutdown on data35:03 Using interstellar objects as Milky Way geological samples37:27 Phosphorus availability and why it matters for biology40:01 Non-gravitational acceleration explained43:02 Tail morphology and solar wind effects44:38 What we will learn at closest Earth approach45:21 Expected nucleus size and constraints47:01 Why nucleus size estimates vary so much49:59 Has 3I/ATLAS interacted with other star systems before?53:36 The Vera Rubin era: expected discovery rates55:02 How many interstellar objects per year we’ll find57:51 Using Rubin to protect Earth from NEAs58:03 Designing the ideal interstellar sample-return mission1:01:02 3I/ATLAS and the thick disc as a source region1:06:02 Have we already captured interstellar objects in our solar system?1:09:40 The mysteries we’ll never know: what ejected it1:10:09 Addressing the alien-technology speculation1:11:48 “Science is evidence-based”: why nothing suggests artificiality1:13:10 What real anomalies would actually look like1:17:02 Why the perceived “anomalies” are consistent with physics1:21:01 How the team collaborates to interpret data1:22:06 Could SETI use interstellar objects as technosignature probes?1:23:07 What an artificial object would look like1:25:01 Hypothetical “comet probe” ideas1:26:04 The “black swan” argument1:27:04 Attaching probes to future interstellar visitors1:28:11 Why returning data from deep space is hard1:29:00 How machine learning helps the research1:31:41 OutroMore JMG https://www.youtube.com/c/JohnMichaelGodierFollow us at other places!@JMGEventHorizonMusic:https://stellardrone.bandcamp.com/https://migueljohnson.bandcamp.com/https://leerosevere.bandcamp.com/https://aeriumambient.bandcamp.com/FOOTAGE:NASAESA/HubbleESO - M.KornmesserESO - L.CalcadaESO - Jose Francisco Salgado (josefrancisco.org)NAOJUniversity of WarwickGoddard Visualization StudioLangley Research CenterPixabay