Beach Mystery, Asteroid Close Encounter, and the Cosmic Dance of Ancient Comets
Astronomy Daily: Space News July 07, 2026x
134
00:13:5512.8 MB

Beach Mystery, Asteroid Close Encounter, and the Cosmic Dance of Ancient Comets

AnnaAnnaHost
Astronomy Daily S05E134 β€” Tuesday, 7 July 2026 Mysterious metal spheres wash up on a Queensland beach and turn out to be re-entered rocket debris, Hayabusa2 beams home stunning close-ups of asteroid Torifune, new VLT chemistry reveals interstellar comet 3I/ATLAS may be one of the oldest objects ever studied, TESS finds its first exoplanet using Einstein's gravitational microlensing, JWST spots six galaxies merging into one twelve billion years ago, and New Horizons charts the solar wind's fade at the true edge of the solar system. In This Episode β€’ Mystery metal spheres wash up on a Queensland beach β€” identified as rocket debris β€’ Hayabusa2's flyby of asteroid Torifune returns stunning new images β€’ 3I/ATLAS's ancient birthplace revealed by new VLT chemical fingerprint study β€’ TESS discovers its first exoplanet using gravitational microlensing β€’ JWST spots a rare six-galaxy mega-merger, 12 billion years in the past β€’ New Horizons tracks the solar wind's slowdown at the solar system's edge

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00:00:00 --> 00:00:02 Anna: Hello and welcome to Astronomy

00:00:02 --> 00:00:04 Daily. I'm Anna.

00:00:04 --> 00:00:07 Avery: And I'm avery. It's Tuesday the 7th of

00:00:07 --> 00:00:10 July, 2026, and we've got a properly

00:00:10 --> 00:00:11 eclectic mix for you today.

00:00:11 --> 00:00:14 Anna: We're starting close to home, very close

00:00:14 --> 00:00:17 to home, with a beach in Queensland and some

00:00:17 --> 00:00:20 rather mysterious silver balls.

00:00:20 --> 00:00:23 Avery: Then it's out to an asteroid, out to an

00:00:23 --> 00:00:25 interstellar comet, uh, out to a planet

00:00:25 --> 00:00:28 40 light years away, out to a

00:00:28 --> 00:00:31 merger of six galaxies 12 billion years

00:00:31 --> 00:00:34 in the past, and finally right out to

00:00:34 --> 00:00:36 the edge of the solar system itself.

00:00:36 --> 00:00:39 Anna: A proper grand tour. Let's get into it,

00:00:39 --> 00:00:42 and let's start with a story that reads more

00:00:42 --> 00:00:44 like a mystery novel than a science bulletin.

00:00:45 --> 00:00:47 Over the weekend, six large metallic

00:00:47 --> 00:00:50 spheres washed up on Forest beach near

00:00:50 --> 00:00:52 Townsville in North Queensland.

00:00:52 --> 00:00:54 Avery: And naturally, the Internet had some

00:00:54 --> 00:00:57 theories. But the real explanation is

00:00:57 --> 00:00:59 almost as interesting. The Queensland Fire

00:00:59 --> 00:01:02 Department cordoned off a 50 meter

00:01:02 --> 00:01:05 exclusion zone, and crews in hazmat

00:01:05 --> 00:01:07 gear carefully secured the objects into

00:01:07 --> 00:01:08 drums.

00:01:08 --> 00:01:10 Anna: Because these things can be genuinely

00:01:10 --> 00:01:13 hazardous. Space archaeologist Associate

00:01:13 --> 00:01:15 Professor Alice Gorman from Flinders

00:01:15 --> 00:01:18 University had a look at the footage and said

00:01:18 --> 00:01:20 they're consistent with pressurized fuel

00:01:20 --> 00:01:22 vessels likely made of titanium

00:01:22 --> 00:01:25 alloys. And titanium has an extremely

00:01:25 --> 00:01:28 high melting point, which is exactly why

00:01:28 --> 00:01:30 these survive RE entry when so much else

00:01:30 --> 00:01:31 burns up.

00:01:32 --> 00:01:34 Avery: They're sometimes nicknamed spaceballs, and

00:01:34 --> 00:01:36 Gorman notes that they can show up years

00:01:36 --> 00:01:38 after the launch that produced them. There

00:01:38 --> 00:01:40 was no scorching on these ones, which

00:01:40 --> 00:01:42 suggests it came from a rocket stage that

00:01:42 --> 00:01:44 fell away early rather than from a spacecraft

00:01:44 --> 00:01:46 that burned up on final RE entry.

00:01:46 --> 00:01:49 Anna: On Sunday night, the Australian Space Agency

00:01:49 --> 00:01:51 confirmed it's working with Queensland

00:01:51 --> 00:01:53 authorities and the Emergency Management

00:01:54 --> 00:01:56 Agency and said in a statement that the

00:01:56 --> 00:01:59 objects are, quote, consistent with debris

00:01:59 --> 00:02:01 from a foreign rocket body that recently re

00:02:01 --> 00:02:03 entered the atmosphere from orbit.

00:02:03 --> 00:02:05 Avery: They haven't officially named a launch yet,

00:02:05 --> 00:02:07 but there are a couple of candidates worth

00:02:07 --> 00:02:10 watching. China launched the Long March 6th

00:02:10 --> 00:02:12 and the Long March 8A over that same weekend.

00:02:13 --> 00:02:15 Nothing confirmed, but the timing lines up.

00:02:15 --> 00:02:18 Anna: It's a great reminder of just how much

00:02:18 --> 00:02:20 hardware is coming back down to Earth these

00:02:20 --> 00:02:23 days. More launches than ever means more

00:02:23 --> 00:02:25 RE entries than ever. And Australia's

00:02:25 --> 00:02:28 coastline, being enormous and facing a lot of

00:02:28 --> 00:02:31 open ocean, catches more than its fair share.

00:02:31 --> 00:02:33 Avery: If you're on the Queensland coast and you

00:02:33 --> 00:02:35 spot something like this, please don't touch

00:02:35 --> 00:02:37 it. Uh, call it in. These vessels can still

00:02:37 --> 00:02:39 contain leftover propellants like hydrazine,

00:02:39 --> 00:02:41 which is nasty stuff.

00:02:41 --> 00:02:44 Anna: Great advice. We'll keep an eye on this one

00:02:44 --> 00:02:46 and let you know if the source gets confirmed

00:02:46 --> 00:02:49 from debris coming down to a, uh, spacecraft

00:02:49 --> 00:02:52 going up close and personal with an asteroid

00:02:52 --> 00:02:54 62 million miles away.

00:02:54 --> 00:02:57 Avery: This is JAXA's Hayabusa 2, the same probe

00:02:57 --> 00:02:59 that brought samples of asteroid Ryugu back

00:02:59 --> 00:03:02 to Australia's own umara Desert in 2020.

00:03:02 --> 00:03:04 It's been out on an extended mission ever

00:03:04 --> 00:03:07 since, and on Sunday it completed its first

00:03:07 --> 00:03:09 asteroid encounter. Of that extended mission,

00:03:09 --> 00:03:10 a flyby of

00:03:10 --> 00:03:13 Anna: asteroid Torifune, and flyby

00:03:13 --> 00:03:16 undersells it a bit. Hayabusa2 came within

00:03:16 --> 00:03:18 about 800 meters of Tori Fune,

00:03:18 --> 00:03:21 traveling at something like 18

00:03:21 --> 00:03:24 kilometers an hour. JAXA has described it as

00:03:24 --> 00:03:27 a deliberately risky operation designed

00:03:27 --> 00:03:29 specifically to test high speed, high

00:03:29 --> 00:03:32 precision navigation technology that could

00:03:32 --> 00:03:34 one day deflect a hazardous asteroid.

00:03:34 --> 00:03:37 Avery: Torifune is a two lobed object, a bit like a

00:03:37 --> 00:03:40 peanut or a snowman, about 450 meters

00:03:40 --> 00:03:43 across. The spinning once every five hours.

00:03:43 --> 00:03:45 The pictures that have come back taken by the

00:03:45 --> 00:03:47 optical navigation camera and the thermal

00:03:47 --> 00:03:50 infrared imager, show rocks and boulders

00:03:50 --> 00:03:53 scattered across both lobes. Yuya Mimasu,

00:03:53 --> 00:03:56 who heads the Hayabusa 2 Extended Mission

00:03:56 --> 00:03:58 Team, told a press conference he was

00:03:58 --> 00:04:01 genuinely shocked by how good the image was

00:04:01 --> 00:04:03 given. It was captured in a fleeting moment

00:04:03 --> 00:04:06 during a high speed pass. The infrared

00:04:06 --> 00:04:09 images are just as valuable. They reveal

00:04:09 --> 00:04:12 cooler shadowed regions and warmer

00:04:12 --> 00:04:15 sunlit patches, which tell scientists about

00:04:15 --> 00:04:17 the surface texture and thermal behavior of

00:04:17 --> 00:04:18 the rock.

00:04:18 --> 00:04:21 Anna: Hayabusa2's next stop is even more

00:04:21 --> 00:04:23 ambitious asteroid 1998

00:04:24 --> 00:04:27 KY26, just 11 meters across,

00:04:27 --> 00:04:29 potentially the smallest asteroid ever

00:04:29 --> 00:04:32 visited by a spacecraft. That encounter isn't

00:04:32 --> 00:04:35 due until 2031, so Torifune was

00:04:35 --> 00:04:36 very much the warm up act.

00:04:36 --> 00:04:39 Avery: A warm up act 62 million miles from

00:04:39 --> 00:04:42 home. Not bad for a spacecraft that's been

00:04:42 --> 00:04:43 flying for almost 12 years.

00:04:44 --> 00:04:47 Anna: Sticking with old travelers, let's check in

00:04:47 --> 00:04:49 on three I ATLAS, the interstellar

00:04:49 --> 00:04:52 comet that's been fascinating astronomers

00:04:52 --> 00:04:53 since last July.

00:04:53 --> 00:04:56 Avery: New research out this week, led by Cyriel

00:04:56 --> 00:04:59 Opadam at the University of Edinburgh, used

00:04:59 --> 00:05:02 the European Southern Observatory's Very

00:05:02 --> 00:05:05 Large Telescope to study the comet's

00:05:05 --> 00:05:07 chemical fingerprint in detail. And it's

00:05:07 --> 00:05:10 given us our best clue yet about where

00:05:10 --> 00:05:13 3i Atlas actually came from.

00:05:13 --> 00:05:15 Anna: The short version this comet almost

00:05:15 --> 00:05:18 certainly formed in the outer reaches of a

00:05:18 --> 00:05:20 star system built around a star far

00:05:20 --> 00:05:23 older than our Sun. Combined with earlier

00:05:23 --> 00:05:26 work on hydrogen and carbon isotopes,

00:05:26 --> 00:05:29 some estimates now put the comet's age at

00:05:29 --> 00:05:31 somewhere between 3 and 12 billion

00:05:31 --> 00:05:34 years, which, if it holds up, would make

00:05:34 --> 00:05:37 3i atlas one of the oldest objects

00:05:37 --> 00:05:39 ever directly studied by humanity.

00:05:40 --> 00:05:42 Avery: Opiton put it beautifully she said

00:05:42 --> 00:05:45 interstellar comets are basically fossils

00:05:45 --> 00:05:47 from planetary formation, but from a system

00:05:47 --> 00:05:50 very far away that we're lucky enough to

00:05:50 --> 00:05:51 study up close for once.

00:05:52 --> 00:05:55 Anna: 3i Atlas is only the third confirmed

00:05:55 --> 00:05:57 interstellar object after Oumuamua

00:05:57 --> 00:06:00 in 2017 and Borisov in

00:06:00 --> 00:06:03 2019. And it's already fading as it

00:06:03 --> 00:06:05 heads back out of the solar system for good.

00:06:06 --> 00:06:09 The VLT team says these observations are

00:06:09 --> 00:06:11 nearing their end simply because the comet is

00:06:11 --> 00:06:14 getting too faint to study, which

00:06:14 --> 00:06:16 Avery: makes the timing of this result rather

00:06:16 --> 00:06:18 poignant. One of our last really detailed

00:06:18 --> 00:06:21 looks at 3i Atlas, and it turns out to be one

00:06:21 --> 00:06:24 of the most revealing. And with the Vera

00:06:24 --> 00:06:26 Rubin Observatory now fully operational,

00:06:27 --> 00:06:29 scientists reckon we could be entering what

00:06:29 --> 00:06:31 they're calling the golden age of

00:06:31 --> 00:06:33 interstellar object discovery.

00:06:33 --> 00:06:35 Anna: Every new one a fresh surprise, by the sound

00:06:35 --> 00:06:36 of it.

00:06:36 --> 00:06:38 Avery: Now, uh, for a discovery that even NASA

00:06:38 --> 00:06:40 didn't think was possible when this

00:06:40 --> 00:06:41 spacecraft launched.

00:06:41 --> 00:06:43 Anna: This is TESS, the Transiting

00:06:43 --> 00:06:46 Exoplanet Survey Satellite. Since

00:06:46 --> 00:06:49 2018, its entire job has been

00:06:49 --> 00:06:51 watching for the tiny dimming of starlight

00:06:51 --> 00:06:54 when a planet crosses in front of its star.

00:06:54 --> 00:06:57 That's given us hundreds of confirmed worlds.

00:06:57 --> 00:06:59 But this week, in a paper in the

00:06:59 --> 00:07:02 Astrophysical Journal Letters, a team reports

00:07:02 --> 00:07:04 that TESS has found a planet using a

00:07:04 --> 00:07:07 completely different method, gravitational

00:07:07 --> 00:07:08 microlensing.

00:07:09 --> 00:07:11 Avery: Microlensing relies on general relativity.

00:07:11 --> 00:07:14 When one star passes almost exactly in front

00:07:14 --> 00:07:17 of a more distant background star, its

00:07:17 --> 00:07:19 gravity bends and briefly magnifies that, uh,

00:07:19 --> 00:07:22 background star's light. If the foreground

00:07:22 --> 00:07:24 star has a planet, that planet leaves its own

00:07:24 --> 00:07:26 tiny ripple in the brightening.

00:07:26 --> 00:07:29 Anna: The planet in question is called Gaia

00:07:29 --> 00:07:32 23 Bra B, first hinted at

00:07:32 --> 00:07:34 back in 2023 by the European Space

00:07:34 --> 00:07:37 Agency's Gaia mission, which spotted the

00:07:37 --> 00:07:39 stellar brightening but didn't have enough

00:07:39 --> 00:07:41 data to confirm a planet. PES

00:07:41 --> 00:07:44 archived observations from that same event

00:07:44 --> 00:07:46 turned out to hold the missing piece.

00:07:46 --> 00:07:49 Avery: It's a super Jupiter, about 1.6

00:07:49 --> 00:07:52 times Jupiter's mass, orbiting an orange

00:07:52 --> 00:07:54 dwarf star some 40 light years away,

00:07:55 --> 00:07:57 vastly further than the planet's TESS usually

00:07:57 --> 00:08:00 finds within about 150 light years.

00:08:01 --> 00:08:03 Anna: University of New Mexico's Diana Dragomir,

00:08:03 --> 00:08:06 who worked on the discovery, said plainly

00:08:06 --> 00:08:09 that nobody expected TESS to ever be

00:08:09 --> 00:08:11 capable of finding this kind of planet. And

00:08:11 --> 00:08:14 because microlensing events are one offs,

00:08:14 --> 00:08:16 they happen once and never repeat. This

00:08:16 --> 00:08:19 really was a needle hiding in eight years of

00:08:19 --> 00:08:20 haystack data.

00:08:21 --> 00:08:23 Avery: A team member, Mallory Harris, had a great

00:08:23 --> 00:08:26 line about it. She said microlensing will

00:08:26 --> 00:08:28 probably find the first Earth analog, and

00:08:28 --> 00:08:30 then we'll just have to wave at it as it

00:08:30 --> 00:08:32 drifts by, because we'll never see it again.

00:08:32 --> 00:08:35 Anna: Bittersweet, but also a lovely preview

00:08:35 --> 00:08:38 of what NASA's upcoming Nancy Grace Roman

00:08:38 --> 00:08:40 Space Telescope will do at scale. It's

00:08:40 --> 00:08:43 expected to find around a thousand planets

00:08:43 --> 00:08:46 this way, from one planet 40 light

00:08:46 --> 00:08:48 years away to something on a truly different

00:08:48 --> 00:08:49 scale altogether.

00:08:50 --> 00:08:52 Avery: A new paper led by ZL Wen of the Chinese

00:08:52 --> 00:08:55 Academy of Sciences describes what

00:08:55 --> 00:08:57 astronomers are calling an extremely rare

00:08:57 --> 00:09:00 galaxy mega merger six massive

00:09:00 --> 00:09:02 galaxies caught in the act of merging into

00:09:02 --> 00:09:05 one roughly 12 billion years ago.

00:09:05 --> 00:09:08 Anna: Using the mild Boke and Blanco

00:09:08 --> 00:09:10 telescopes, combined with earlier James Webb

00:09:10 --> 00:09:13 and radio interferometry data, the team

00:09:13 --> 00:09:15 reconstructed what was originally thought to

00:09:15 --> 00:09:18 be a single distant galaxy hosting an active

00:09:18 --> 00:09:21 black hole. Instead, it turned out to be a

00:09:21 --> 00:09:24 protocluster, a gravitationally bound clump

00:09:24 --> 00:09:27 of galaxies in the very earliest stage of

00:09:27 --> 00:09:29 building what's called a brightest cluster

00:09:29 --> 00:09:30 galaxy.

00:09:30 --> 00:09:32 Avery: None of these six are lightweights either.

00:09:32 --> 00:09:35 Four are already individually massive, and

00:09:35 --> 00:09:38 together they're packing hundreds of billions

00:09:38 --> 00:09:40 of solar masses of stars into a region

00:09:40 --> 00:09:43 smaller than the Milky Way. Their combined

00:09:43 --> 00:09:45 star formation rate is somewhere between 70

00:09:45 --> 00:09:48 and 160 solar masses a year.

00:09:48 --> 00:09:50 Compare that to the Milky Way's current rate

00:09:50 --> 00:09:52 of fewer than 10.

00:09:52 --> 00:09:54 Anna: Based on how fast the galaxies are moving

00:09:54 --> 00:09:57 relative to each other. The team estimates

00:09:57 --> 00:09:59 the whole merger will wrap up within a few

00:09:59 --> 00:10:02 billion years, producing one enormous,

00:10:02 --> 00:10:04 ultra luminous galaxy at the heart of a young

00:10:04 --> 00:10:05 cluster.

00:10:05 --> 00:10:07 Avery: It's also a nice test case for the

00:10:07 --> 00:10:09 relationship between black holes and their

00:10:09 --> 00:10:12 host galaxies. The young central black hole

00:10:12 --> 00:10:14 in this system is growing right alongside its

00:10:14 --> 00:10:16 six merging hosts, which should help refine

00:10:16 --> 00:10:19 our models of how that black hole to galaxy

00:10:19 --> 00:10:21 relationship actually gets built in the

00:10:21 --> 00:10:24 Anna: early universe 12 billion years ago, and

00:10:24 --> 00:10:27 we're only piecing it together now. Astronomy

00:10:27 --> 00:10:28 really does run on a different clock.

00:10:28 --> 00:10:31 Avery: And to finish, let's go all the way out to

00:10:31 --> 00:10:34 the true edge of the solar system, courtesy

00:10:34 --> 00:10:36 of NASA's New Horizons spacecraft.

00:10:36 --> 00:10:38 Anna: New Horizons is currently about

00:10:39 --> 00:10:41 66 astronomical units from the sun,

00:10:42 --> 00:10:44 more than 66 times the Earth's sun

00:10:44 --> 00:10:47 distance, and it's still carrying a working

00:10:47 --> 00:10:50 instrument called swap, the Solar Wind

00:10:50 --> 00:10:53 Around Pluto detector. A new study

00:10:53 --> 00:10:56 led by Dr. Heather Elliott at the Southwest

00:10:56 --> 00:10:59 Research Institute has used SWAP to track

00:10:59 --> 00:11:02 exactly how the solar wind slows down

00:11:02 --> 00:11:04 as it heads toward interstellar space.

00:11:05 --> 00:11:08 Avery: The solar wind starts out supersonic, around

00:11:08 --> 00:11:10 a million miles an hour, but as it travels

00:11:10 --> 00:11:13 outward, it runs into incoming neutral gas

00:11:13 --> 00:11:16 drifting in from interstellar space. That

00:11:16 --> 00:11:19 gas gets ionized, gets picked up by the solar

00:11:19 --> 00:11:21 wind, and effectively acts as a drag

00:11:22 --> 00:11:23 slowing the whole flow

00:11:23 --> 00:11:26 Anna: down, Elliot's team found. The

00:11:26 --> 00:11:28 slowdown steepens the further out you go.

00:11:29 --> 00:11:31 By around 58 astronomical units,

00:11:31 --> 00:11:34 the wind is measured at somewhere between 13

00:11:34 --> 00:11:37 and 15% slower than it is near

00:11:37 --> 00:11:40 Earth. Earlier data between 30

00:11:40 --> 00:11:43 and 43 AU had only shown a, uh,

00:11:43 --> 00:11:45 5 to 10% dip, so this

00:11:45 --> 00:11:48 confirms the drag really compounds with

00:11:48 --> 00:11:48 distance.

00:11:49 --> 00:11:51 Avery: Why does this matter? Beyond pure curiosity,

00:11:52 --> 00:11:53 because the shape and strength of this

00:11:53 --> 00:11:56 boundary the helioschere controls how many

00:11:56 --> 00:11:59 galactic cosmic rays make it through to

00:11:59 --> 00:12:01 threaten astronauts on long missions to the

00:12:01 --> 00:12:04 Moon or Mars. Better maps of the boundary

00:12:04 --> 00:12:06 mean better radiation forecast for future

00:12:06 --> 00:12:06 crews.

00:12:06 --> 00:12:09 Anna: New Horizons is expected to reach the actual

00:12:09 --> 00:12:12 termination shock, where the wind drops below

00:12:12 --> 00:12:15 the local speed of sound somewhere between

00:12:15 --> 00:12:18 2029 and 2040. Depending on

00:12:18 --> 00:12:20 how the models settle, it would only be the

00:12:20 --> 00:12:22 third spacecraft in history to make that

00:12:22 --> 00:12:25 crossing, after Voyager 1 and Voyager

00:12:25 --> 00:12:26 2.

00:12:26 --> 00:12:29 Avery: Dr. Alan Stern, the mission's principal

00:12:29 --> 00:12:31 investigator, put it nicely. New

00:12:31 --> 00:12:34 Horizons remains the only active spacecraft

00:12:34 --> 00:12:37 out there in the outer heliosphere, quietly

00:12:37 --> 00:12:39 building on everything the Voyagers found

00:12:39 --> 00:12:40 decades ago.

00:12:40 --> 00:12:43 Anna: A fitting note to end on From a beach in

00:12:43 --> 00:12:45 Queensland to the true edge of the Sun's

00:12:45 --> 00:12:46 influence.

00:12:46 --> 00:12:49 Avery: That's a wrap on today's edition of Astronomy

00:12:49 --> 00:12:52 Daily beach mysteries, asteroid

00:12:52 --> 00:12:55 close calls, ancient comets, hidden

00:12:55 --> 00:12:58 exoplanets, a 12 billion year old

00:12:58 --> 00:13:01 mega merger, and the edge of the solar system

00:13:01 --> 00:13:01 itself.

00:13:02 --> 00:13:04 Anna: If you enjoyed today's episode, please hit

00:13:04 --> 00:13:06 subscribe wherever you're listening and leave

00:13:06 --> 00:13:09 us a review. It genuinely helps new listeners

00:13:09 --> 00:13:09 find the show.

00:13:10 --> 00:13:12 Avery: And here's today's did you know? For ya,

00:13:13 --> 00:13:15 Hayabusa2's flyby of Tory fun

00:13:15 --> 00:13:18 happened at a distance of under a kilometer.

00:13:18 --> 00:13:20 At 18 kilometers an hour,

00:13:21 --> 00:13:23 that's roughly the same speed the

00:13:23 --> 00:13:25 International Space Station orbits the Earth.

00:13:25 --> 00:13:26 Anna: I'm Anna.

00:13:26 --> 00:13:29 Avery: And I'm Avery. We'll see you next time on

00:13:29 --> 00:13:30 Astronomy Daily.

00:13:33 --> 00:13:34 Mhm.

00:13:42 --> 00:13:42 Anna: The story.