Slashdot Mirror

← Back to Stories (view on slashdot.org)

Photonic Laser Thruster Promises Earth to Mars in a Week

Posted by CowboyNeal on from the buckle-up dept.

serutan writes "Using lasers to drive spaceships has been a subject of interest for many years, but making a photonic engine powerful enough for practical use has been elusive. Dr. Young Bae, a California physicist, has built a demonstration photonic laser thruster that produces enough thrust to micro-maneuver a satellite. This would be useful in high-precision formation flying, such as using a fleet of satellites to form a space telescope with a large virtual aperture. Scaled up, a similar engine could speed a spacecraft to Mars in less than a week."

42 of 413 comments (clear)

  1. You can't go home again by Harmonious+Botch · · Score: 4, Funny

    ...we fried it duing liftoff.

  2. acceleration? by OrangeTide · · Score: 4, Insightful

    What sort of acceleration would that be? Would it be multi G-force worth, that might be impractical for humans.

    --
    “Common sense is not so common.” — Voltaire
    1. Re:acceleration? by scoot80 · · Score: 5, Funny

      They didn't say you would get there alive. They just said you would get there in a week.

    2. Re:acceleration? by AKAImBatman · · Score: 4, Interesting

      As I recall, the computations for reaching Mars in a week were predicated on One-G acceleration. i.e. Earth normal gravity for a ship in transit. To slow down, you simply spin the ship at the halfway point and accelerate in the opposite direction.

      If (and I stress *if*) this invention is not so much hyperbole, it could change the face of space travel forever. We could build interplanetary starships (in this context, ships that never land on a planet) that would be limited only by their power-generation capabilities and not by their reactive fuel. Which means that we could build a ship with a large nuclear powerplant on board, and it could cruise the solar system for as long as its Uranium/Plutonium fuel held out.

      Of course, we still need to solve the problem of high cost of launch, but that little issue would be easier to solve if we actually had somewhere to go once we got in orbit. Scaling up the number of launches would almost certainly bring the price per launch down. In fact, the reason why the Space Shuttle never reached its promised price-per-kilo is because it was predicated on regular launches that never materialized. Starships could change all that. Especially if the cost of moving personnel and equipment was marginalized by carrying more of them per trip.

      For example, I always figured that a special module could be fitted to the Shuttle's cargo bay to carry as many as 60 people to the ISS. Given that the Shuttle has to be man-rated for flight, carrying people makes a lot more sense than hauling around equipment that's better served by a Delta or Atlas rocket.

      How exciting! And probably too good to be true.

      --
      Javascript + Nintendo DSi = DSiCade
    3. Re:acceleration? by Harmonious+Botch · · Score: 4, Informative

      About 1/2 G.

    4. Re:acceleration? by Harmonious+Botch · · Score: 5, Informative

      It includes turnaround at the halfway point.

    5. Re:acceleration? by Score+Whore · · Score: 5, Informative

      Half a G will get you way further than Mars in a week. The greatest distance between Earth and Mars is 391 million Km. Assuming you're going to go constant acceleration half way and constant acceleration in the other direction the second half of the trip, 1/2 G acceleration will get you 897 million Km end to end in seven days.

      If you don't mind going through the Sun, that 1/2 G will get you Earth to Jupiter, in the worst geometry possible, in seven days and one hour and thirty minutes.

    6. Re:acceleration? by Hucko · · Score: 5, Funny

      Do you currently find 1G uncomfortable?

      --
      Semi-automatic amateur armchair Australian philosopher; conjecture ready at any moment...
    7. Re:acceleration? by scoot80 · · Score: 5, Insightful

      That was funny, I'll give you that one. I am an idiot.

    8. Re:acceleration? by E++99 · · Score: 5, Funny

      His demonstration thruster produces 35 micronewtons.

      35 micronewtons / .0005467722 Km/s^2 = 64 milligrams, so if we were using this to power a marscraft with the mass of the acetominophen contained in a single extra strength tylenol tablet, it would be more than 10x too heavy. Of course they said it could be scaled up, but that's a heckuvalot of scaling.

      I doubt the smallesst possible manned Mars vehicle could be less than 1,000kg. That's a scaling factor of 15.6 million. I can jump over 3 feet on the trampoline in my back yard, which translates to a maximum velocity of 4.23 m/s. If I scale that up by 15.6 million, I would be launching myself at 66,000,000 m/s, far exceeding escape velocity, and reaching Mars under my own power in under 30 minutes.

    9. Re:acceleration? by demonlapin · · Score: 5, Informative
      No, that only works if you're accelerating in the same direction at 1/2G the whole time. If you want to end up in the right place with zero speed, you need:

      s = 0.5at^2

      s = 0.5 * 4.9 * (3.5d * 24h/d * 3600s/hr)^2

      = 224 042 112 000 m, a bit over 224 million km
      Then double it, since you'll go just as far in the deceleration, and you get 448 million km, not 897.
    10. Re:acceleration? by TheRaven64 · · Score: 5, Funny
      Interesting moderation. You're currently at +5 insightful, for two statements:
      • That the grandparent post was funny.
      • That you are an idiot.
      Both of these could reasonably considered informative, however the second is likely untrue, since in my experience idiots are quite likely to be the last to realise, and the moderation totals on the grandparent would have informed even the most humour deficient. Or are moderators now giving karma to people who admit their errors? If so, have I accidentally logged into some kind of bizarro-Slashdot, where everyone is polite and respectful? And is there a way of making sure I don't accidentally end up on the other one again?
      --
      I am TheRaven on Soylent News
    11. Re:acceleration? by Hal_Porter · · Score: 5, Funny

      But what about the heat? It's quite difficult to cool off lump of metal in a vacuum without discarding hot material to do so. Even if you could feasibly power a craft to Mars with this, how would you stop yourself from arriving as Astronaut McNuggets?

      Our chief scientist, Davros McDonald, has calculated the ultimate evolutionary form of the human race to be McNuggets. Why do you struggle against progress?

      --
      echo -e 'global _start\n _start:\n mov eax, 2\n int 80h\n jmp _start' > a.asm; nasm a.asm -f elf; ld a.o -o a;
    12. Re:acceleration? by Sunburnt · · Score: 4, Insightful

      Both of these could reasonably considered informative, however the second is likely untrue, since in my experience idiots are quite likely to be the last to realise

      Remember, there's a big gap between "likely untrue" and "always untrue." When someone can look at their own statement, realize what it implies about their capacities, and then confidently declare "I am an idiot," they are displaying insight that is well above average, and certainly deserving of mod points.

      I, for one, welcome our new self-insight-possessing commenters.

      have I accidentally logged into some kind of bizarro-Slashdot, where everyone is polite and respectful? And is there a way of making sure I don't accidentally end up on the other one again?

      Staying out of the Politics and YRO threads may reduce your vitriol exposure by as much as 300%. Ask your doctor!

      *Disclaimer: poster is a frequent and vitriolic contributor to Politics and YRO threads.

      --
      Tags != Comments, and -1 (Troll) != -1 (I Would Respond Angrily To This Poster So They Must Be Trolling)
    13. Re:acceleration? by TuringTest · · Score: 5, Insightful

      Remember, there's a big gap between "likely untrue" and "always untrue." When someone can look at their own statement, realize what it implies about their capacities, and then confidently declare "I am an idiot," they are displaying insight that is well above average, and certainly deserving of mod points.

      I, for one, welcome our new self-insight-possessing commenters.

      I'm an idiot, too. ...can I have my +5 Insightfool karma boost?
      --
      Singularity: a belief in the "God" idea with the "demiurge" relation inverted.
    14. Re:acceleration? by aliquis · · Score: 4, Funny

      But then the living quarters would never leave earth orbit would they? ;D

    15. Re:acceleration? by Randolpho · · Score: 4, Interesting

      I think the problem is that in order to create the propulsion, the laser has to *hit* the craft, not be directed away from it. If I read this correctly, the heat questioned in the grandparent post comes not from powering the laser but from the laser beam smacking against the drive plate.

      And given the lack of atmosphere, a heat sink wouldn't help much. The only way to dissipate the heat would be through radiation, and that's slow compared to convection.

      The question is, of course, is this really an issue? How much heat is generated from the laser blasting against the drive plate? How quickly will the heat be dissipated?

      --
      "Times have not become more violent. They have just become more televised."
      -Marilyn Manson
    16. Re:acceleration? by SunTzuWarmaster · · Score: 5, Funny

      The current space shuttle seems to deal with the heat from explosives fairly well in the atmosphere and in space. They use a model called "let's not put it next to the astronaut's faces".

    17. Re:acceleration? by tehcyder · · Score: 4, Funny

      If you don't mind going through the Sun, that 1/2 G will get you Earth to Jupiter, in the worst geometry possible, in seven days and one hour and thirty minutes.
      I'm not a rocket scientist, but isn't that kind of a deal-breaker?
      --
      To have a right to do a thing is not at all the same as to be right in doing it
    18. Re:acceleration? by tarkas · · Score: 4, Informative
      Generally, radiatiative cooling will be limited by the Stefan Boltzman law, j (watts/m^2) = (stefan-boltzman constant) * T^4 (kelvins), http://en.wikipedia.org/wiki/Black_body

      where = 5.670 400(40)×108 Wm-2K-4. http://en.wikipedia.org/wiki/Stefan-Boltzmann_constant So, the hotter your radiator, it increases output by a power of 4 and since space is very near absolute zero, for emissivity and absorption considerations, it's really dumping energy. You'd be surprised at how fast a simple radiation cooling scheme will operate.

      I had to run a themo-vacc qualification test for some ISS hardware (on the mobile transporter). In a chanber with a very hard vaccum, even under a shroud made from a 1/8" skin aluminum box, painted with high emmissivity paint, we had good performance using a cooler lining the chamber, chilled with LN2, aprox -375F IIRC. I forget the cooling rate, but it wasn't bad. We had to modulate the cooler to get our cooling/heating profile, so we could have gone faster.

      From TFA, it wasn't clear how they were pumping the photon source, I assume it'll be electric. So it's either batteries(Ha!) or some sort of nuke plant - thermionic orf some sort of (sterling ?) heat engine, either of which will be rejecting a bunch of heat, to generate - what, someone said like 370MWatt? So ya, big radiators of some sort. Plus, the photon source might also be generating it's own heat, aside from the photons, depending on the efficiency.

      This'll basically be a big flashlight, just don't stand behind it or you're looking at one heck of sunburn, at least until you're vaporized. But the really cool thing is you don't need to schlep along tons of reaction mass, the photons do it for you, as they have a (very small) momentum. You just need a nice compact high power energy source.

    19. Re:acceleration? by tkw954 · · Score: 4, Funny

      If you don't mind going through the Sun, that 1/2 G will get you Earth to Jupiter, in the worst geometry possible, in seven days and one hour and thirty minutes.

      I'm not a rocket scientist, but isn't that kind of a deal-breaker?

      Not if you go at night.

  3. Re:How "scaled up" is this? by Mothinator · · Score: 5, Funny

    It only says it can get the spacecraft to Mars in a week. It does claim to be able to stop once it gets there.

  4. All a matter of scale... by Microlith · · Score: 5, Insightful

    And if scaled up, cockroaches run at 800mph and fleas could jump over a mile. However, the increase in mass and energy requirements would make it impossible.

    Small scale thrusters using only lasers is a good start, but we'll have to see what else gets bigger with scale, other than just the thrust.

    1. Re:All a matter of scale... by iamhassi · · Score: 4, Funny

      "we'll have to see what else gets bigger with scale, other than just the thrust."

      That's what she said ;)

      --
      my karma will be here long after I'm gone
  5. The Warriors by PresidentEnder · · Score: 4, Interesting

    At least now we'll have a way to beat the Kzinti when we make first contact.

    --
    I used to carry a bottle of whiskey for snake bite. And two snakes. -Nefarious Wheel
  6. I smell bullshit by Rix · · Score: 4, Interesting

    The Bae Institute was founded in 2002 by Dr. Young K. Bae In other words, no existing institution would accept the good doctor, so he made his own, and issued a press release written in false third person.
    1. Re:I smell bullshit by s4m7 · · Score: 4, Informative

      In other words, no existing institution would accept the good doctor, so he made his own, and issued a press release written in false third person. http://www.photonics.com/content/news/2007/September/7/88894.aspx

      Bae founded the institute to develop space technologies and has pursued concepts such as photon, antimatter and fusion propulsion for more than 20 years at SRI International, Brookhaven National Lab and the Air Force Research Lab. He has a PhD in atomic and nuclear physics from UC Berkeley. Several aerospace organizations have expressed interest in collaborating with the institute to further develop and integrate PLT into civilian, military and commercial space systems, Bae said, and he has recently been invited to present his work by NASA, JPL, DARPA and the Air Force Research Laboratory (AFRL).
      --
      This comment is fully compliant with RFC 527.
  7. Re:How "scaled up" is this? by Dachannien · · Score: 5, Funny

    Actually, it says that it can get the spacecraft to Mars in a week and can stop once it gets there. But it doesn't claim that anyone will survive the impact.

  8. Lasers are better with Photons... by fahrbot-bot · · Score: 4, Funny
    Photonic Laser Thruster

    Muuuuch better than using those LASERS without Photons.

    [I hear that adding the photons also makes them lighter...]

    --
    It must have been something you assimilated. . . .
  9. Energy source? by StefanJ · · Score: 4, Insightful

    Where is the energy coming from to create those photons?

    Since you're dealing with a photon drive, the reaction mass usage (as determined by the classic rocket equation) is going to be negligible for the speeds required for interplanetary travel.

    In fact, I'm not sure what the reaction mass would be in this case.

    But in any case, you're going to need a lot of energy to create that photon thrust. Great phrigging big reactors, which means great, great, phrigging big radiators since you don't have the luxury of a river to carry away your waste heat.

    Antimatter might be a compact way to store the required energy, but converting the gamma rays from matter/antimatter reactions to electricity is going to require heat exchangers and great big radiators as well.

    Well, anyway, scaling this up is going to involve several bears of a problem.

    Also, please note that this "article" is a press release from the guy who made the invention.

    1. Re:Energy source? by Arabani · · Score: 5, Interesting

      I did quite a bit of reading on spacecraft propulsion recently (specifically Nuclear pulse propulsion and basically what I got out of it is that if you have a massive energy source (say, antimatter) you're better off just blowing it up and riding the blast wave. You can get extremely high thrust AND specific impulse that way, which is not possible with almost any other engine technology (either high thrust and low specific impulse like chemical rockets, or low thrust and high specific impulse like ion engines). NPP (and its derivatives) is basically the best way we know of right now to get high enough performance for interplanetary, or even interstellar, missions.

      NPP originally started with using nuclear explosions, but more recent research has focused on inertial confinement fusion and even antimatter-catalyzed fusion. The obvious extreme is using antimatter-matter detonations and riding the blast wave, which I'm fairly certain would be more efficient and yield better performance than taking that energy and pumping it into a laser.

    2. Re:Energy source? by Arabani · · Score: 5, Informative

      The concept of external (i.e. explosions are not contained within the ship's structure) nuclear pulse propulsion was actually studied in the late 50s, early 60s as Project Orion (internal NPP, which is like your car analogy but with nuclear explosions instead of fuel-air explosions, places too great of a stress on the ship's structure to be feasible).

      They never did get enough funding for a test with a nuke, but they did build 1-meter scale models powered by RDX charges. Powered by I believe 6 explosive charges, one of these reached 100 meters in a controlled test flight, proving that the concept worked (at least with lower energy pulses). As for whether or not it would work with nukes, their numerical modeling strongly indicated that it would.

      You mentioned that the blast wave might be moving too fast to be useful, but actually that's the whole point - the impulse of the blast wave impacting against and then rebounding off the back of the spaceship is what provides thrust, so the faster the blast wave is moving, the greater the impulse and thrust.

      Of course, the spaceship would have to be stupidly large to survive the instantaneous acceleration, but that was why it was so attractive. A ship around 10000 tons could've made it to Pluto and back within a year. Plus, it had a very high thrust-weight ratio, which meant that the fraction of the weight that was useful payload was stupidly high as well.

      So then if NPP is so good, why was the project killed? It wasn't because it didn't work ... it was a combination of quite a few political reasons:
      1) NASA had thrown its support behind the competing NERVA rocket.
      2) Fallout was problematic.
      3) There was no mandate from Congress for missions that would require such performance, and NASA had no desire to dictate policy.
      4) Partial Test Ban Treaty of 1963 banned all above-ground nuclear testing.

  10. Power = Thrust * Exhaust Velocity by roystgnr · · Score: 5, Insightful

    To send a ship to Mars in a week, Thrust should be roughly 10m/s^2 times the ship's weight, which we'll say is only ten metric tons. (Because we're getting there in a week, we can pack light... pack light, get it? I slay me.) That gives us 10^5 Newtons of thrust.

    Exhaust Velocity is the speed of light, or about 3*10^8 m/s.

    So our power consumption is 3*10^13 Watts.

    By comparison, the USA is currently consuming less than 1*10^13 Watts on average.

    In other words, if think you think it costs too much to refuel an RV now...

    It's not completely implausible to use light to propel a spacecraft, but either that propulsion will be ridiculously slow (e.g. solar sails, laser sails, or the "precisely tweak your satellite's orbit a tiny bit" applications mentioned in the article), or it's going to require ridiculous "cheap antimatter" amounts of energy.

  11. Re:How "scaled up" is this? by azenpunk · · Score: 5, Funny

    nasa knows how to stop things at mars, that's easy. (think: "feet, meters, same difference")

  12. Scaling up is fun by suv4x4 · · Score: 4, Funny

    I wonder why we don't just scale up a bridge right to Mars and drive to there with a drag racer car. If the latter is too slow, I suppose no problem, we can scale it up as necessary.

  13. Re:Solar system escape velocity! by AKAImBatman · · Score: 4, Informative

    So anyone riding the spacecraft better hope that there isn't a malfunction of the "slowing down" laser at the other end, as depending on the angle, that might be enough to exit the solar system altogether!

    The article calls this a "Photon Thruster". What that means is that the device would be mounted on the vehicle as a thruster rather than the vehicle "riding" a laser-beam like in Beam-powered propulsion. So as long as the laser restarts after you flip the ship, you're good to go.

    Note that this is a separate issue from powering a laser cluster large enough to reach Mars in a week...
    --
    Javascript + Nintendo DSi = DSiCade
  14. Re: Metric Joke by Telephone+Sanitizer · · Score: 5, Informative

    A harsh lesson that I have learned here...

    If you're going to make a lame joke, at least include a cite so there's a chance of getting modded up as "informative."

    The Mars Climate Orbiter:
    http://en.wikipedia.org/wiki/Mars_Climate_Orbiter

    "The Mars Climate Orbiter was intended to enter orbit at an altitude of 140-150 km above Mars. However, a navigation error caused the spacecraft to reach as low as 57 km. The spacecraft was destroyed by atmospheric stresses and friction at this low altitude. The navigation error arose because a NASA subcontractor (Lockheed Martin) used Imperial units (pound-seconds) instead of the metric units (newton-seconds) as specified by NASA."

  15. Re:How "scaled up" is this? by MrNaz · · Score: 5, Funny

    Survival isn't necessary. Just get your ass to Mars. G-G-Get your ass to Mars.

    --
    I hate printers.
  16. With all due respect to James Doohan... by Spasmodeus · · Score: 5, Funny

    Scaled up, a similar engine could speed a spacecraft to Mars in less than a week. Aye. And if my grandmother had wheels, she'd be a wagon.
  17. Re:How "scaled up" is this? by Smight · · Score: 5, Funny

    You must have forgotten that nuclear power, by definition, harms the environment.
    That's just how it works.
    There's no environment to harm in space so nuclear power can't possibly work out there.

    --
    IOU one (1) signature
  18. Re:IMPULSE DRIVE by jcr · · Score: 5, Funny

    voila! sublight speed!

    Big deal. I have sublight speed sitting at my desk.

    -jcr

    --
    The only title of honor that a tyrant can grant is "Enemy of the State."
  19. Re:How "scaled up" is this? by FauxPasIII · · Score: 4, Insightful

    > Republicans, you mean.

    Anybody who's read my posting history knows I'm a dyed-in-the-wool liberal, but I don't think we can singularly blame the GOP for this one. There's resistance to nuclear power coming from both extreme ends of the spectrum. Environmental activists who don't understand the science on the left, and oil industry lobbyists on the right.

    I'm constantly frustrated with people who I know are well-intentioned and genuinely concerned, who are so afraid of nuclear power. I mean I agree, solar and wind power are great ideas, but right now we're generating power using f'ing COAL.

    --
    25% Funny, 25% Insightful, 25% Informative, 25% Troll