Become a fan of Slashdot on Facebook

 


Forgot your password?
Close
typodupeerror
×
Science News

Investigating Super Efficient Laser Propulsion Leads to Serendipitous UV effects 33

Posted by chrisd from the coherent-lite-fuel-needs dept.
wvanhuffel writes "In this article from spacedaily the authors may be on the road to creating the impulse engine....then again, maybe not. It's life imitating art again!" The article details the exploration of the use of lasers and more importantly a new effect when certain materials (in this case lead) are struck by the laser, apparantly a predictable secondary explosion 50 millionths of a second after the target is struck, emitting UV light.
This discussion has been archived. No new comments can be posted.

Investigating Super Efficient Laser Propulsion Leads to Serendipitous UV effects. More

Investigating Super Efficient Laser Propulsion Leads to Serendipitous UV effects.

Comments Filter:

  • Lasering electrons off the particles. (Score:3, Interesting)

    by Nyphur ( 514992 ) <nyphur@gmail.com> on Monday March 11, 2002 @09:58AM (#3142234) Homepage
    Here's a little theory I thought up there now, while reading the full article on spacedaily:
    Remember, I'm only 16 so I don't have enough grounding in particle physics to make a more solid theory.

    The particles are ionised because the laser (a highly coherent beam of focused photons) interacts with the electrons in the lead atoms. The photons literally knock the electrons in the atoms of the lead further back into the lead by giving them energy and raising the resistance back towards the laser.

    A lot of energy is, at the same time, given to lots of particles of lead. The particles of lead given energy are those in the direct path of the laser and thus are those which have had their electrons removed by the laser, thus producing the ionised lead cloud.

    With all this energy stored up in the electrons, which have no atoms to return to, it has to go somewhere! The electrons cannot enter the outer electron shells of the lead atoms, so they are bounced around the lead, attracted by the gravitational pull of the atoms but repelled by the electrons, while possibly forcing electrons with less energy than them out of the outer electron shells and replacing them.

    When an electron is forced out of its shell (as in the first case 1millionth of a second after the laser discontinues) it emits the energy it had stored in the bond, like splitting the bonds in an actual atom, but with less intensity. When the electrons are forced out in the second case (50 millionths of a second after the first wave), energy is used in making the new bonds and the same ammount is used in breaking the old bonds, BUT the electrons making the new bond and breaking the old ones already have a lot of energy from the laser, which is released when the electrons enter the outer electron shells of the atoms, because the energy released from breaking the bonds cannot enter the energy-saturated electrons and the energy taken in from making the bond is already present in the electrons entering the shell.

    • Oops, sorry about the bold bit, I used a b tag instead of a br tag. I was typing too quickly again ^_^
    • Never appologise for your age. You'll find that peoples aparent "written" age has nothing to do with their years since being born.

      Photons are sometimes released when an electron drops from a more excited state to a lower state or "shell".

      It could be that the lead atoms "absorb" the laser pulse energy by having some electrons energy level raised. The "pulse" of the laser is echoed by the time it takes for the electrons to rise, then fall and release their energy.

      This would not require ionization, or a sonic echo as someone else suggested, but there is no reason to believe that any hypothisis is wrong until it is demonstrated to be false or the "real" answer proven. Or it may be an interaction of all those effects at once.

      So relax, Nyphur, and voice your ideas. It's the only way anyone really learns.

      Bob-

      • Thanks for your support. I do know that my mental age is far beyond that of the number of years since my birth, as can be said for a lot of those who post on slashdot.
        And, jsut a little reference, although you said that your explanation does not require it, the report clearly stated that there is always ionisation. (The inital ion cloud expanding at 20km/s which occurs 1 microsecond after the laser-pulse). I agree that the photonic pulse is probably the result of electron-"shell-shifting", which I happen to know is not only caused by an inward shift, but also an outward shift. So, as you see, the shift MAY be caused by electrons with more energy pushing themselves onto already full particles, thus forcing the other electrons to push out at a greater velocity, OR it may be caused by the existing electrons gaining so much energy that they break the bond and move outward from the particle.

        In either case, knowing the charge of the initial ion-cloud would help with the theories. Anyone know it?

  • I bet it's a mechanical effect (Score:4, Interesting)

    by ka9dgx ( 72702 ) on Monday March 11, 2002 @11:49AM (#3142747) Homepage Journal
    I bet the laser creates an acoustic shock wave is transversing the lead, reflecting back, and hittle the already excited atoms again, 50 microseconds later.

    They should try thicker/thinner films.

    --Mike--

  • Sorting through this unexpected discovery is a secondary concern. The main goal is testing different materials under different lengths and strengths of laser pulses to see what might give the most efficient result.

    I have been watching the discover and history channels lately, and one thing that seems to stick out like a sore thumb in science is people finding incredible discoveries, and then shelving them or ignoring them becuase it isn't part of the expierement that was being performed. Then maybe 5, 10 or even 100 years later someone will stumble on to it and change the world.

    If these guys are just going to table this really intruiging discovery for a few years while they work on ho-hum materials testing, then is has GOT to be big...

    • Re:It's BIG! (Score:2, Insightful)

      by Doctor Fishboy ( 120462 )
      I have been watching the discover and history channels lately, and one thing that seems to stick out like a sore thumb in science is people finding incredible discoveries, and then shelving them or ignoring them becuase it isn't part of the expierement that was being performed. Then maybe 5, 10 or even 100 years later someone will stumble on to it and change the world.

      It could also be that they repeated the experiment many times, subsequently realised that it was a known side-effect that they hadn't taken into account the first time around, and then carried on as normal.

      The difference is that the History and Discovery channels rarely do programs on "Incredible discovery of the millenium turns out to be misunderstood version of the photoelectric effect".

      Please don't misunderstand me, I'm just as excited about new, interesting and unexplained phonomena too. It's just that the media hypes up the unexplained whilst dismissing it as 'boring' if scientists then find out an explanation using known physics.

      Dr Fish

  • Impulse Engine it's not (Score:3, Informative)

    by Rick the Red ( 307103 ) <Rick DOT The DOT Red AT gmail DOT com> on Monday March 11, 2002 @03:16PM (#3144120) Journal

    This is a reaction engine. Lead may be the reactant, and lasers may be the energy source, but the propulsion is still caused by tossing mass away from the direction you wish to move.

    A true impulse engine does not lose mass, just energy, and is still a fiction. That's not what these folks are working on.

    • E = mC^2, mass is energy according to current theory. Therefore losing energy IS losing mass (albeit a small amount, because E/C^2 = m).

      But I know what you meant...

      Doesn't the "solar sail" concept essentially react to the momentum of photons?

    • I thought it was called an "impulse engine" because it would be used as a plot device when ever the director had the impulse to use it...
    • When something is moving, it has a larger mass than when it is stationary. General theory of relativity. This energy mass must come from somewhere. So, of course a pure impulse drive is impossible. Mass must be lost by something and given to the object you want to move in the form of energy. Energy does not weigh much, so if they could develop a 99.99% efficient reaction drive, it would begin to function almost like an impulse drive.
    • Say, didn't one of those recent experimental NASA probes have an Ion engine? IIRC, it didn't work very well or at least it died very quickly after firing.

      But the principle is/was to charge "space dust" electrically which will then propel the vehicle forward. A little bit like jet engine, really. The drive doesn't use it's own mass as a reaction source, but I'm rather sure that's not what the original technobabble engine principle was all about.
  • My favorite part of the article is the closing paragraph: giant ionizing lasers in space! Sounds like a good excuse for a hack-a-thon. I've always wanted to write my name in hundred-mile high letters...
  • the femtosecond pulse might induce an
    ultrasonic wave of roughly the same frequency,
    which bounces off the other side
    of the slab...did they try varying
    the lead thickness ?

    the timescales would be coherent with that.

Slashdot Top Deals

UNIX was not designed to stop you from doing stupid things, because that would also stop you from doing clever things. -- Doug Gwyn

Close