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Mars NASA

NASA's Proposed Plasma Rocket Would Get Us to Mars in 2 Months (gizmodo.com) 176

Last week, NASA announced it is working with a technology development company on a new propulsion system that could transport humans to Mars in only two months -- down from the current nine month journey required to reach the Red Planet. Gizmodo reports: NASA's Innovative Advanced Concepts (NIAC) program recently selected six promising projects for additional funding and development, allowing them to graduate to the second stage of development. The new "science fiction-like concepts," as described by John Nelson, NIAC program executive at NASA, include a lunar railway system and fluid-based telescopes, as well as a pulsed plasma rocket.

The potentially groundbreaking propulsion system is being developed by Arizona-based Howe Industries. To reach high velocities within a shorter period of time, the pulsed plasma rocket would use nuclear fission -- the release of energy from atoms splitting apart -- to generate packets of plasma for thrust. It would essentially produce a controlled jet of plasma to help propel the rocket through space. Using the new propulsion system, and in terms of thrust, the rocket could potentially generate up to 22,481 pounds of force (100,000 Newtons) with a specific impulse (Isp) of 5,000 seconds, for remarkably high fuel efficiency. [...]

The pulsed plasma rocket would also be capable of carrying much heavier spacecraft, which can be then equipped with shielding against galactic cosmic rays for the crew on board. Phase 2 of NIAC is focused on assessing the neutronics of the system (how the motion of the spacecraft interacts with the plasma), designing the spacecraft, power system, and necessary subsystems, analyzing the magnetic nozzle capabilities, and determining trajectories and benefits of the pulsed plasma rocket, according to NASA.

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NASA's Proposed Plasma Rocket Would Get Us to Mars in 2 Months

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  • by misnohmer ( 1636461 ) on Friday May 10, 2024 @02:34AM (#64461569)
    Ok, humans would be nice, but how about deliver a satellite to Mars orbit in 2 months first - show it can be done.
    • by AmiMoJo ( 196126 ) on Friday May 10, 2024 @04:18AM (#64461715) Homepage Journal

      It doesn't really matter if it takes a robot 9 months or even longer to get there. Primary concern is fuel efficiency and the amount of mass that can be delivered, because robots don't mind waiting, don't need 9 months of food and oxygen supplies etc.

      Cutting the transit time for humans by 7 months would have a huge impact on both the wellbeing of the humans and on the time they could spend on and around Mars, since 14 months of supplies that would have been consumed on the journey are now available for that.

      • Re:Aim lower first? (Score:5, Informative)

        by iAmWaySmarterThanYou ( 10095012 ) on Friday May 10, 2024 @04:37AM (#64461745)

        His point was "prove it works on robots before you send humans to their tragic death dying slowly in space and set this technology back decades".

        • Nah....one of these days, BANG, ZOOM, straight to Mars!
        • by HBI ( 10338492 )

          You know, aside from films like "The Martian" and its ideas about human tethered orbital rendezvous...anything that goes wrong on one of these trips is most likely a relatively rapid death sentence and even if not, a slow wasting death sentence. Either we're going to get there or not, but the concept of making it safe is going to make sure the answer is 'not'.

        • Send Elon Musk as he's keen to live there
      • by hey! ( 33014 )

        But it matters to the research and operation teams whether their downtime is two months or nine months. Such a reduction could alter the economics of a robotic exploration program, which would surely be a prelude to a manned mission. So the robotic program could both provide input into planning of the manned mission while proving the propulsion technology is reliable enough to be man-rated.

        Current concepts for a manned Mars missions would last 22 months, 21 of which would be spent in transit and one on Ma

    • Re:Aim lower first? (Score:4, Informative)

      by dbialac ( 320955 ) on Friday May 10, 2024 @08:00AM (#64462081)
      This is not a new technology. NASA was working on the rocket design decades ago but the program was killed because of the nuclear arms treaties between the US and the USSR. With Russia having backed out of the nuclear arms testing treaty last year, the research is doable again.
  • And Now (Score:2, Funny)

    by The Cat ( 19816 )

    Let's switch to Slashdot, where a guy who thinks he's an engineer because he watched a Mythbusters re-run once will tell us all why it will never work.

    Bob?

    • It will work, the science and engineering aspect is solid (see NERVA) .. but NASA's involvement jeopardizes it.

    • Re:And Now (Score:5, Informative)

      by wierd_w ( 1375923 ) on Friday May 10, 2024 @02:58AM (#64461601)

      Oooh ooh! I can do this!!

      Due to the nuclear nonproliferation treaty, and the space nuclear treaty, the delivery of nuclear materials into orbit, or the utilization of active nuclear energy sources (like fusion detonations, which is what this would be) are either "Highly Controlled" or "Not Permitted" via international treaties.

      This is because, while the Outer Space Treaty is mainly about the deployment, use and operation of nuclear weapons in space, one of its provisions includes the "contamination" of space, and the liability for damages caused by the operation of spacecraft against other spacecraft.

      Regular use of a fusion rocket based system, would leave trails of highly energetic particle radiation, and high-speed massed particles, floating around in interplanetary space (in useful to traverse regions, because the region is-- USEFUL TO TRAVERSE), posing both liability considerations for other ship crews (you are responsible for the waste that gives them multiple soft-tissue cancers on their way to/from other celestial bodies!) as well as for other, later ship systems (Bigger, heavier shielding required, to deal with the increasing levels of energetic particle waste over time, should this mode of travel become in any way regular or ordinary.)

      If there is one thing that bureaucracies hate more than anything else, it is legal responsibilities, and risks.

      Unless there is an iron-clad way to completely obviate the united states from any culpability for later astronauts developing cancer in space from exposure to past missions' emissions, the committees full of committees will pass this idea around endlessly, ensuring it never actually dies, but also never actually gets greenlit.

      Oh-- Did you want a technological reason?

      Uhm.... Hmm...

      Putting a really big fusion rocket ship into orbit requires construction in orbit, due to the astounding costs required to lift the necessary building materials from the planet's surface. Putting whole assemblies up there would have to be done as sub-assemblies, because they would have to fit on existing heavy-lift rockets to get up there.

      • The treaty only talks about nuclear weapons. Especially the Soviets used to launch nuclear reactors.
        • Re: And Now (Score:5, Informative)

          by wierd_w ( 1375923 ) on Friday May 10, 2024 @04:24AM (#64461727)

          No. It covers contamination as well.

          Principle 3, page 49.

          https://www.unoosa.org/pdf/pub... [unoosa.org]

          • Principle 3.2(a):

            2. Nuclear reactors
            (a) Nuclear reactors may be operated:
            (i) On interplanetary missions

            • Bzzzt.

              No, do not skip the pertinent section above it like a cherry picking politician.

              Here, let me blockquote it (and bold it) for you.

              Principle 3.

              Guidelines and criteria for safe use

              In order to minimize the quantity of radioactive material in space and the risks
              involved, the use of nuclear power sources in outer space shall be restricted to those
              space missions which cannot be operated by non-nuclear energy sources in a reason-
              able way.
              1. General goals for radiation protection and nuclear safety
              (a) States l

            • by HBI ( 10338492 )

              Besides which, if a nation is not a signatory of a treaty, it's not going to be bound by its provisions regardless of what the UN general assembly says. No nation agreed to let the UN legislate for it.

              Otherwise Israel would have evacuated Gaza and stopped the ethnic cleansing long ago. Same mechanism - General Assembly resolution. They have about the compelling power of a petition to your local government.

      • "Unless there is an iron-clad way to completely obviate the united states from any culpability for later astronauts developing cancer in space from exposure to past missions' emissions..."

        We wipe out the species through climate change...famine or through climate change...global unrest...nuclear war...famine. Both seem like likely paths, given continuation of current behavior.

        No future astronauts, no problem!

      • by Rei ( 128717 )

        There is no "contamination of space". The exhaust is much faster than escape velocity from the solar system. Thousands of kilometers per second.

        • There is no "contamination of space". The exhaust is much faster than escape velocity from the solar system. Thousands of kilometers per second.

          You're forgetting that anything that is in any way nuclear is so evil that even the craziest opposing idea has to be given more credence. Right now, for example, we might be hearing that nuclear fission was invented by Jews.

      • Re: "Unless there is an iron-clad way to completely obviate the united states from any culpability for later astronauts developing cancer in space from exposure to past missions' emissions, the committees full of committees will pass this idea around endlessly, ensuring it never actually dies, but also never actually gets greenlit." - What do you think the fossil fuels industries have been doing for the past couple of centuries? They've explicitly known the consequences of releasing so much CO2 into the atm
      • Spoken like a true lawyer. That treaty is beyond dead given Russias actions recently, and weve sent up plenty of nuclear batteries in recent years. The amount of radiation this would spew into space would be a millionth of a trillionth of a drop in a bucket. We need to be working on nuclear propulsion. Its space or bust for our species. Have you seen what were doing to this planet recently?
      • by dbialac ( 320955 )

        Putting a really big fusion rocket ship into orbit requires construction in orbit, due to the astounding costs required to lift the necessary building materials from the planet's surface. Putting whole assemblies up there would have to be done as sub-assemblies, because they would have to fit on existing heavy-lift rockets to get up there.

        You mean like the ISS? And MIR? We've done that already. With fast transportation, the system is likely useful for multiple journeys. It can transport enough weight that it can have a separate landing module. This brings up a bigger question, though, and I hope it's a question that has been asked. The question is, if you're going to Mars, there is the possibility of life there. We don't have a solid answer to that question right now. Does this need to be a one-way journey, so there isn't some huge global di

        • No, I mean something a lot bigger.

          • No, I mean something a lot bigger.

            Relax. Nobody is going to want to put your head into orbit.

            • Cute.

              No, I mean the cost of this thing, means that in order to make it profitable, it has to be rather large, and haul a lot of cargo.

              It's comparable to a nuclear reactor that way. This expense-to-profit ratio is precisely the reason why small nuclear reactors are not, and are never likely to be, economical to build, operate, or service.

              https://www.ewg.org/news-insig... [ewg.org]

              You need to move a very very large amount of cargo to mars, in order to justify the very large expense of constructing the rocket in orbit.

              • by dbialac ( 320955 )
                At least on my point, such a rocket can be used over and over because it's already in space and the journeys are manageable in length. Build once and use it for years. Refueling is trivial as far as sending more elements up. Small nuclear reactors already exist within much of the US Navy. When NASA was pursuing the nuclear rocket, they were looking at trips going all over the solar system taking only a few months. The nuclear rockets open up the entire solar system to research and possible colonization of o
    • by necro81 ( 917438 )
      Bummer this has been moderated Troll. I thought it was +1 Funny.
  • by Rei ( 128717 ) on Friday May 10, 2024 @03:07AM (#64461609) Homepage

    ... as opposed to just random ignorant press fluff, here you go [sciencedirectassets.com].

    TL/DR: it's a gun that shoots fission plasma like little nuclear bombs. A 2,2kg projectile containing low-enriched uranium (LEU) and a moderator is fired (once per second) by a coilgun through a a flared 522kg 33cm-long LEU barrel (with the barrel flaring out in a HEU section at the base) at 1600 m/s (requiring 5MW of power), where it hits criticality. By a third of the way through the barrel its interior is already 1eV / 11605K, then is boosted to 500 eV by the HEU section as it leaves the barrel into a parabolic magnetic nozzle to direct the plasma. The fact that the projectiles move through in pulses makes it easier to cool the barrel, given that the thermal power present in the first third of the barrel is 5,4TW, and in the latter section, a peak of 46TW; obviously you're not going to withstand that continuously! 1% of the power from the explosion is recovered via coils, returning 29MW to the system, to power the gun and any other spacecraft needs. The result - 100kN of thrust at 5000 sec Isp, would be enough to lift 10 tonnes of mass from the surface of the Earth (not that you'd use it on the surface), and has a propellant efficiency 14x that of Starship's Raptor engines.

    Obviously, this rocket is dirty, but almost everything from the explosion will have a velocity higher than the escape velocity of the solar system, so so long as you're not pointing it directly at Earth, it doesn't matter. Not that one engine firing in the direction of Earth would matter all that much anyway, but...

    • ... so long as you're not pointing it directly at Earth, it doesn't matter.

      Deceleration means you're turning the hull into a radioactive nightmare you do not want to meet on a bad day.

      But let's not worry about that because, in all fairness, Mars *is* a radioactive hellhole and a little more expsoure isn't going to add much to the drama

      • Again, an Aldrin Cycler is the ideal use for this engine.

        Because it does NOT decelerate. It rendezvous with the target body, makes a slingshot manouver, then continues BACK to Earth.

        It's a cargo hauler on a continuous, noninterrupted crossing orbit.

        • by Rei ( 128717 )

          Aldrin cyclers make no sense as cargo haulers. They don't save you dV or time - they cost you more dV and time to dock with them vs. taking an optimal direct trajectory. The point of an Aldrin cycler is that you can have a big spacecraft with tons of radiation shielding and nice facilities for humans on their long trip to Mars, which you don't have to loft every single trip. But it provides no advantages for cargo, only the aforementioned disadvantages.

          And Aldrin cyclers are premised on long transit times.

      • by Rei ( 128717 )

        To be fair, you don't decelerate pointing directly at a planet (if you even decelerate by rocket power at all, rather than aerocapture). The deceleration burn is parallel to the planet. You don't want to fall straight down onto it.

        Though I mean... I guess with this sort of thrust to weight ratio, you *could* design a spacecraft where this could give you powered flight all the way to the surface ;) Still, pretty wasteful; nuclear fuel doesn't grow on trees.

        Then again, if you built the craft with enough th

        • The deceleration burn is parallel to the planet. You don't want to fall straight down onto it.

          Not the point. The hull will be travelling through a nice cloud of high energy pollution, collecting fleas/daughters and various other bits of radioactive detritus, en route. You really don't want to be anywhere near that thing without a serious amount of shielding after the trip.

          • by Rei ( 128717 )

            Do you understand what the word "parallel" means (aka, "not entering the planet"), and that these particles are rapidly en route to escape the solar system at several thousand kilometers per second? You're not catching up with them. Ever.

            It's just nonsense. It's not even a highly collimated stream, and even if it were, you could just angle it slightly off-axis. It's moving away from you at relativistic speeds, and it's versus an environment that's already awash in radiation.

      • by ceoyoyo ( 59147 )

        What? No. That's not how relativity works. Not even fancy relativity, good old Galilean relativity. Do not learn physics from Aristotle.

    • by mambru ( 224456 )

      I found this pdf version [sciencedirectassets.com] of that paper.

  • Musk is doing a lot of great things, but my opinion is that he has some huge blindsights.
    Wanting to go to Mars using chemical propulsion instead of nuclear is one.
    I cannot fathom how any intelligent person would do that.
    Unless...It is just a red herring to promote his business.

    • He just doesn't want indefinitely for someone to develop it for him. Chemical rockets are what we have working right now. I think Starship will open the space economy to make these high ISP engines a reality, and therefore make Starship a Earth-LEO shuttle only. The idea of 1000s of Starship to Mars isn't realistic. A few might happen, though.
    • Realistically, the key enabler of all this stuff is getting mass into orbit, and that can only be done with chemical rockets for the foreseeable future. That is what Starship is, and I'm sure Elon/SpaceX would have no problem if Starship being able to lob tonnes into orbit for cheap enables the development of new engines that make it redundant for interplanetary transport.

      There is a long way to go on the journey into space though, and starship is the first necessary step.

  • Why? (Score:2, Interesting)

    Yeah, I know - mankind's urge to explore, and simple wanderlust, and because (maybe) we can, etc. And of course, because government dollars flowing to the private sector is advantageous to those hard-lobbying companies. And there are the inevitable scientific and technological advances which we can use here on Earth to make our lives better. But...

    I know I keep harping on this, but I do it because it's important. Our planet is burning, in an almost literal sense. We need to be focusing every bit of our know

    • Re:Why? (Score:5, Insightful)

      by Rei ( 128717 ) on Friday May 10, 2024 @07:07AM (#64461937) Homepage

      If your goal is "don't work on researching new technology until you've fully solved all of the problems at home", then I have to ask, how do you enjoy living a hunter-gatherer existence? You're setting a standard to never do basic research, because there will always be problems.

      Nobody is saying "dump half of the globe's GDP into space exploration". The world's space agencies spend like one twentieth of a percent of global GDP. And have spawned a massive commercial market in things that benefit life on Earth, which is far larger than what space agencies spend (total space revenue now amounts for about half a percent of global GDP). All of those satellites orbiting Earth aren't up there on a lark, they're doing so because they're profitable to have them up there, because they provide services to the people of the world that people want to pay for. Global communication (particularly in remote areas for ships, planes, and emergency responders, and now increasingly, rural broadband), global positioning and timing, weather monitoring, fire monitoring, other natural disaster monitoring, climate monitoring, scientific research, agricultural management, resource mapping, national security, disaster response, media broadcast, on and on and on.

      Basic research is your seed corn; you don't boil and eat it. Basic research is useless until it very suddenly isn't. "OMG, look at all these people wasting all this money trying to make heavier than air machines fly, when we have all these problems to deal with on the ground!" Sure would have been a GREAT idea if we had listened to those people, huh?

    • Yeah, I know - mankind's urge to explore, and simple wanderlust, and because (maybe) we can, etc. And of course, because government dollars flowing to the private sector is advantageous to those hard-lobbying companies. And there are the inevitable scientific and technological advances which we can use here on Earth to make our lives better. But...

      Name a time - any moment whatever in human history - when because all current problems had been solved, it was morally okay to put any resources, public or private, into exploration?

    • We've got MANY technologies due to space programs. They are all extremely useful.

      - Solar cells (you know, create electricity from the sun, as opposed to burning something).
      - Water filters (kind of useful when you want fresh water).
      - Air purifiers (to get those nasty airborne chemicals out of the air).
      - Insulation (for clothing, buildings, etc.)
      - Improvements to windmills (you know, the electricity generating ones).

      There's many more technologies which allow us to be more efficient in one way or the other, he

    • by gweihir ( 88907 )

      You are not wrong. But all these things require understanding of what is to come to justify the effort. Only about 20% of all people are accessible to rational argument. (Incidentally, about 80% of the human race are religious and hence essentially believe in fairy-tales...)

      That number is not enough. If we had enough rational people, we would not even be in this mess, as the models were pretty good in the 1980's and all this crap could have been nicely avoided with a determined effort starting at that time.

  • if they ever get round to building it and it's not cancelled in 20 years time
  • Unless I am mistaken, a big huge chemical rocket is still required to escape the gravitational well of Earth. No complaints there - it is just that, when it comes to this particular problem, we remain stuck in a technology the essence of which is centuries old.
    • by gweihir ( 88907 )

      There is no known better way. Sometimes a problem is solved. There are countless examples. For example, the commonly used "hammer" is probably a few 1000 years old and there still is no replacement for many of its uses and there probably never will be.

  • by FallOutBoyTonto ( 6835322 ) on Friday May 10, 2024 @09:43AM (#64462353)
    Accelerating away from Earth is half the trip, when you're approaching your destination you'll need to slow down... How will the vehicle account for flying through it's own exhaust? Falcon 9's get quite sooty from re-entry and landing burns.
    • by ceoyoyo ( 59147 )

      Falcon 9s encounter their own exhaust because they're in atmosphere. The exhaust gets slowed down by atmosphere. A rocket fires its exhaust out at some number of km/s. The rocket accelerates in the opposite direction, so not only is it not catching up to its exhaust, it's being pushed in the opposite direction.

      There is no "deceleration". It's all acceleration. The universe doesn't care what "direction" you're "moving in." This is called Galilean relativity [wikipedia.org], and we've known about it for 400 years.

  • Even if the human race manages (as it looks now) 2.5C, 3C or 4C of climate change, earth will still be a massive better place for human survival.

  • So, this would be like Project Orion, Jr.?

  • So they are proposing the propulsion system outlined in a 1950s Popular Mechanics magazine? The one that is still not tenable due to not having the material science yet? That's one way to run a scam, I guess.

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