Breakthrough Starshot: Sending Probes at a Fifth of the Speed of Light

They should use something Megaprojects did a Vid about lol Hitler's Death Ray ;) take a note from history! Scale it down to a Lens Satellite using practically infinite energy from the Sun focusing on Solar Sails! Lol and when it's not busy launching Spacecraft it can also zap hostile Satellites and blame it on Solar flares jk kinda

He is skeptical in a good way, but everybody here believes too much how possible it is in the near future. Space is way bigger than most people realize: go outside on a starry night and see how many things you can see that are bigger than a point of light. It's almost all empty space, in huge quantities.
He's good at explaining how utterly far away we are from getting anything to go anywhere near the speed of light. Take a Mach 10 jet - so fast, the biggest problem is the atmosphere in the way. Well, speed of light is 30,000 TIMES faster.
Also there's a principle of engineering called Murphy's Law. It's like the small particles of dust it'll encounter - a big problem you might not realize until you started the sails flying. Except we haven't even started flying them and already there's almost insurmountable problems. If we got SoME of these sails launched and going fast, it would be good to see what more problems pop up. But we haven't launched a single one yet. Start with sailing one to the Moon. Then to some planet. Then, to Neptune or Pluto. We'll be lucky if we get that far in our lifetimes.

This will make absolutely no difference to your life

​@@jimbojimbo6873but it will matter for the future beyond us living currently

Won't they be a bit pissed about humans eating their ancestors?

@@tinpony9424 dont know about you...but i dont(intentionally) eat bugs.

Will the lizard people then eat the insects, or will the insects have learned how to defeat the lizard people?

Ok quimby

@@phillip6083 Have you ever eaten any kind of processed/mass produced food? Then you definitely have had some alien's ancient ancestor.

Nominate them for a Webby

They shouldn’t get an award for the grammar, though. Ending sentences with prepositions doesn’t exactly get my vote of approval.

@@andrewgardiner563 yeh, and I think I just heard a person described as ‘a member of the communist bloc’😂

Same. Been on top of my list for many yrs.

We may be old when the first prototypes come out and actually do something but our grandchildren (if the world stays in one piece ((CAN WE GET MUCH HIG-))) will see the wonders of cosmos more then we did!

I’ve always been fascinated with space mainly because we know so little about it. That’s insane though how far the closest galaxy is. 20 years doing a 1/5 the speed of light. The sheer number alone is astounding. Only thing that makes me sad is that the in my lifetime, we will never see the other side of the universe yet alone another galaxy in person. It a single person on this planet today will ever see another galaxy in person. I don’t see us advancing that much in only a 100 years unless we find a holy grail of knowledge. I seriously hope we do though. I would love to see the video footage of one of those little prides as it zips through space. That would be awesome.

@@JeremyDN
Star system, not galaxy. Alpha Centauri

Why wouldn't the laser be built on the moon?

Larry Niven's works come to mind for me, as it was his discussions and essays about light-sails that made them make sense. (Clarke's just a bit too dense for me I guess!)
I do wonder if they have plans for things like deceleration at arrival. But also, when/why not lasers on the Moon? Maybe that's another aspect the Starshot people are keeping an eye on, because it seems like it would be a VERY helpful step forward. I'm sure Moon lasers would have a bunch of issues to overcome too, but certainly atmosphere wouldn't be one of them.
The most concerning complication of all though is one Simon didn't mention.
Politics.
Because even though this kind of project stands to benefit all of humanity on so many levels it's literally impossible to count the ways that it could change the world for the better... someone's going to scream about every single tiny step along the way. This is no longer the 60s and the Space Race and the starry eyed wonder of Getting Out There, and it's a damn shame to think that some group of thick-headed bean counters might delay this amazing idea by even a few years.

My own thoughts generally go to Cordwainer Smith's "The Lady Who Sailed The _Soul_ " , though interestingly enough the use of a lightsail ship was only the denouement of what was really a character study.
Another author who comes to mind is Larry Niven, and specifically the novel _A Gift from Earth_ , though again, the old lightsail ships (which once landed became the basis of The Hospital) were a piece of the setting, rather than part of the story itself.

That Clarke story is so good.

@@Beryllahawk The Mote in God's eye story was the one of his i remember that featured light sails.

Look, I'm not saying there's an alien in there that's controlling Simon by pulling hairs...

@@RockyPeroxide but there is definitely life “out” there somewhere right? We are not alone, surely.

I've never heard Simon do such a committed, even passionate ending before.

@@jeffk1482 Simon is a geek. He works on the various channels so he can expound upon these science not-quite-fiction topics that he dearly loves.

All Hail the Algorithm!

How does Simmons d taste?

@@RK-jc5ey like knowledge

Like hot dog flavored water

@@NightRogue77 HOT DIGGITY DOOGGG

That’s so fucking gnarly

Or Uranus

@@Mr13BADluck13 We call it Ureckum now

@@whitecheddar6177 wait wha

Will never happen so keep imagining😂

Instead of lazers, they should just build a interstellar coil gun to shoot the probes at high speeds.

many similar project has this issue, beaming back energy is possible, but the same tech that can send a few TW to a city sized dish for electricity can send it back to a skyscraper for a supervillain style doomsday weapon. the same lasers that can push a tiny spacecraft with 20% of c can be aimed at any other thing to devastate it.

@@thorin1045 That is my point. A system's efficiency as a drive is directly proportional to its effectiveness as a weapon. In theory, the most efficient drive possible would use fusion power to eject a particle stream at as near light speed as possible. That is also a particle beam weapon. Something to think about.

@@thorin1045 In fact, a major problem with all of these schemes to generate microwave energy in orbit, or on the ground, and beam it up or down, is, what happens when a jetliner flies thru it by accident? In fact, same problem with these super lasers - heaven forbid a bird or a personal jet flies in front.

@@portfolio91 all depends on the energy density and the used frequency. good combination, and the jet or even the bird will not even notice it, while the energy still comes down (you just need stupid sized dish), but nothing will prevent the source to change it into a less then nice combination.
Also, no fly zones exist for many reasons, most jetliners accept the fact, that the high voltage power lines are not for them, and the birds either can live with it or the fry. in a few year they will learn, or not.

Yes I heard that 3 body problem reference too hahahaha at 3:07

They are still closer than many objects that are gravitationally bound to the Sun, IIRC.

Quote from NASA: "Even though Voyager 1 travels about a million miles per day, the spacecraft will take about 300 years to reach the inner boundary of the Oort Cloud and probably another 30,000 years to exit the far side."

Starshot will be the "first" if it is succesful due to thr array overtaking the Voyager probes within a few years.

Such an awesome channel… a rabbit hole I was happy to fall into at the beginning of COVID 😄

Very interesting, thanks Pig Benis!

They're "channels" all have the same "research " to battle over being the first RUclipser to come up with nothing original.......unless you're a typical merican 30 year old popping their head out of its fecal habit and realising they are in bread ya'll

You only just realised they're all trying to be the first to RUclips stuff that's been RUclipsd decades ago? I'm big vaginus , and no info is new research

Using the Sun for a gravitational lens would only allow us to see the things at that one specific angle of the exact opposite side of the Sun.
If there is something interesting one degree to the left, it will not be seen.

It's actually worse than that, since the size of the receiving antenna can be so much larger on earth vs the size possible one each probe (not to mention how do you power it...) means that the maximum distance between each probe in the pipeline is vastly smaller distance (it's not linear, it's a square relationship). This means the number of points of failure in a series is absurd, even IF you could meet the power requirements.
Getting the probes physically there is "technically challenging" but plausible, getting a useable signal back by either method is as much hand-wavium as FTL travel.

Oh yeah, where'll each sail get the electricity to retransmit a signal? There ain't no sun out there. Our space probes, that go past Jupiter, need a radioactive chunk of Pu-238 to keep them warm and generate electricity.
And, it's WAY COLD out there. A few degrees kelvin. Think of pluto and how its rocks are made of solid Methane and rivers of liquid Nitrogen.

You misguided fools.

Integrate the payload chips to act as a kind of Phased array scope. Depending on how spread apart they are.

Oh great! More space junk from earth!

I don't think they would be too hard to slow...
I would think a more massive craft using other methods of reaching relativistic speed would have that problem, but low mass craft like these can probably be slowed by cutting off their power supply before they hit the target star's heliospere. The solar wind coming off the target star could probably provide enough resistance to kill their inertia.

@@xjunkxyrdxdog89 Doesn't matter how big it is. All that matters is cross section exposed to the sun/laser/star, divided by the mass of the craft.
If the radiation of one star can slow down one of these sails from c/5, then our sun ought to be able to accelerate the sail to c/5. It can't, that's why they're using lasers.

@Allan Bonadio "doesn't matter how big it is"
"...divided by the mass of the craft"

What about centurai in general(adding Proxima)

@@josephharrison5639 No medic would be able to save you...

So you're intolerant to pronounciation other than your own!?

Starshot will start destroying Voyager spacecrafts by February 2028 at 1.32355 AU an hour. By July 12, 2078, 5 minutes before 5:00 PM, all mankind will end up being brutally extinct by the extraterrestrial beings 10 times stronger than us.

The nearest star is more than 4 light years away. Going at 1/5 the speed of light you figure out how long it will take to arrive, send a pic and for us to receive it. The nearest possibly habitual planets are thousands of light years away.

Intergalactic travel will not be very feasible, unless you were willing to be able to wait for millions of years with sub-light speeds.

​@@zz-nc5kxGoing 1/5 of light speed would only take 20 years to reach nearest star, thats nothing. If that would be possible we would allready be sending probes. There are about 2000 stars within 50 light-years away from our sun. Possibly 10% could have planets at earth like distance from their star.

It needs it's sail first to reach it's final speed.

Light sails were also mentioned in Star Trek IV & there was an episode of Star Trek Deep Space Nine where Sisko takes his son out on an adventure in space on a space sail ship. Interesting concept for sure.

That's not even a remote concern compared to the impact issue.

I think someone got a world record speed run on Mario 64 cos of this! Maybe wrong game, but yeah, that's a fair point.

@@matthewdearsley123 ruclips.net/video/o3Cx2wmFyQQ/видео.html Not sure if he got the record or he was training.

Who said we want to stay? Cool probes don't brake 😎

Imagine how disappointed scientists will be if it turns out they mistimed the camera and lost their chance to take a picture after 20 years of prep

As the moon is tidal locked to the earth, no matter where on the moon you build it, some days weeks or months during the year will be unable to target.
Not that I know exactly where AC is in the night sky and the limitations of optimizing the time it is in view.

@@torgrimhanssen5100 Still the Moon might be the best place to build it. I'm talking about a much larger laser array field that can propel not just starshot, but larger spacecraft for going to Mars and Europa. Perhaps even a hybrid laser/nuclear propelled spacecraft. I've heard project Orion's nuke detonating ship can go up to 4% the speed of light. Say u use a laser propelled sail to make it go half that speed then use the nuclear propulsion to reach 5% the speed of light then slow down using the last amounts of nuclear bomb fuel, it could reach Alpha Centauri in 88 years.
The Moon has no atmosphere to interfere with the lasers and there's helium 3 there so if nuclear fusion becomes available, it can be used to provide enough power for those laser arrays. I can see why NASA really wants to go back to the Moon now with Artemis.

@@hellothere1656 relativistic speeds for travel within our system would require lethal acceleration and deceleration. You would kill your astronauts trying to send them to mars at 4% of c.

@@xjunkxyrdxdog89 Depends on how quickly you accelerate and decelerate.

@@hellothere1656 tell me you don't understand my comment without saying it.

ʻOumuamua - some speculation around it

I think we would notice hundreds of probes flying through our solar system at 1/5 light speed

At 4 grams each, very tiny, extremely directionally reflective, and directed at the Sun in a way that may not pass any closer to Earth then Mars, it is nearly impossible to detect such objects.
NASA is already having a hard time detecting objects many orders of magnitude larger for the purpose of cataloging impact threats to the planet, and is mainly just focusing on objects large bough to threaten cities.

@@Cloud30000 even if our instruments detect them it might be years before anyone put it together if they did at all

@@clayongunzelle9555 in the one in a million chance of catching a glimpse of a stray reflection off one of the probes, that data would never imply a computer chip is integrated into it and would likely get filed away as another one of many weirdly shaped tiny objects passing through our solar system every day

"how do you keep momentum towards the end of the journey?" Momentum keeps itself. No friction. They'll be flying past the 3 Alpha Centauri stars at c/5.

They're hoping Proxima and Alpha Centauri will slow them down. That's how it'll go into orbit around them and not just zip past.

They're still useful projects as a way to direct research towards "these are the problems we need to solve". Turning something into a known unknown from an unknown unknown has value in itself. Where they're less useful is when those problems remain stubbornly unsolved despite decades of research and that money could have gone into blue sky research that might have found a different solution without those problems. *cough* fusion power *cough*

It took ten thousand years to go from bronze swords to iron swords. It took 2000 to go from iron swords to nuclear bombs.
"Miracle," my ass.

That’s only a problem if you want to orbit the star to collect long-term data; if you just want to snap some pictures, you can do that as you zip past, with hundreds of probes in succession sending one or two photos each. You will know exactly where the probes are by calculating speed and trajectory, and therefor know exactly the best point/time for taking the photo. Being cheap, they only need to send an image or two to provide an equivalent value to much more expensive probes.

Unlike wind you can't tack with a light sail. Even if you angle the sail the force is straight 180°.

Yeah it would only be a fly by. However this is enough to gather decent data. Pluto was also only flown by by New Horizons.

Also another issue would be pointing accuracy with respect to navigation and pointing accuracy for radio/laser communications.
And the effect of radiation pressure on the sails throughout the journey, they would have to simulate the trajectory, calculate the degree of radiation and the vector it would be coming and change the trajectory accordingly on launch, like how a plane deflects left or right if there's a severe crosswind on a landing.

And also to keep it AIMED at these things?

Maintaining aim isn’t as much of an issue, as the laser is pulsed for a very short duration. It can be reaimed between pulses in the very narrow period each day that the rotation of the planet provides a reasonably straight path through our atmosphere.

there are sooo many technical hurdles in this sort of scheme that the laser power and size of transmitter are low priorities (imho, etc). Getting a laser beam to not diverge a lot over such distance is a huge challenge all by itself, not to mention keeping it pointed within a few arc-minutes (or arc-seconds?). I was more struck by the problem of getting a tiny transmitter with almost no power to send a signal back to another tiny object that may be hundreds of thousands of miles away, especially when there's no way to aim the antennas. This is clearly a problem that will take quite a while to even figure out if solutions exist.

@@Cloud30000 Agreed however you still need the infrastructure and the power on demand whether it is a pulse or a long duration shot. Rather see the money spent on an Alcubierre drive

@@jacqueshuot6288 if we are talking purely theoretical technology, I’d rather the money be spent on Matter-Antimatter reactors, quantum singularity reactors, and cold fusion; at least those would benefit my own vehicles.
However, we are much more likely to develop the tech to build a laser to propel micro-satellites within the next decade then we are to get warp drive within the next century.

We all know you actually love it. It's okay.

@@GuntherRommel Well if I’m going to be really honest the closest to the Earth is the Sun

Hate to be pedantic, but he said the Alpha Centauri system, of which Proxima Centauri is a part 🙄

You are right 👍

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Moore's law may need an adjustment but the scaling of feature sizes on the chip is only one method to increase transistor density, and transistor density is only one way to improve processor speed, and improving processor speed is only one way to increase processing power. You'll find that the processors will continue to use less energy, reduced manufacturing costs, achieve higher clock speeds, and have higher transistor density. I wouldn't say you need carbon nanotubes for 3D. That's just a fiction perpetuated by the CNT fan club. All these four possibilities directly convert to increases in processing power per dollar. You're correct it won't be at Moore's law anymore, advanced litho was the low hanging fruit so to speak. But the limit is not reached by minimum litho size. A transformation in technology in any of these four areas could reignite Moore's law. And withthe future of integrated analog circuits and quantum computing, or other as yet conceived architectures who knows how far we'll go?