Menu

Blog

Archive for the ‘space travel’ category: Page 485

Feb 22, 2016

Could we get to Mars in 3 days? Nasa’s considering Photonic Propulsion tech

Posted by in category: space travel

Interstellar space travel is still a matter of science fiction. With our current propulsion systems, it would take millennia to really travel on an interstellar level. However, science is now looking towards new propulsion systems to make interstellar reach possible in significantly less time.

One such system is called Photonic Propulsion, and it’s an insanely interesting idea. The video you see above is a quick summary of a talk given by Philip Lubin of University of California Santa Barbara. It’s a two minute selected sampling of a much larger talk, which you can watch in the source link below.

Continue reading “Could we get to Mars in 3 days? Nasa’s considering Photonic Propulsion tech” »

Feb 21, 2016

Asteroid Art Gallery: NASA To Open Art Gallery On The Asteroid Bennu

Posted by in categories: security, space travel

The art gallary of space.


Are you tired looking for a gallery space to exhibit your artwork? Well, now you have a chance to show off your work in an asteroid art gallery, thanks to NASA.

According to CNN, the space agency is inviting people to send their artworks to an asteroid on its new spacecraft: the Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer, or OSIRIS-REx. The mission, led by the University of Arizona, will also collect a sample of the asteroid Bennu and return it to Earth for study for the first time in history.

Continue reading “Asteroid Art Gallery: NASA To Open Art Gallery On The Asteroid Bennu” »

Feb 21, 2016

Sudan Vision Daily — Details

Posted by in categories: nanotechnology, particle physics, quantum physics, space travel

Love on a Subatomic Scale.


When talking about love and romance, people often bring up unseen and mystical connections. Such connections exist in the subatomic world as well, thanks to a bizarre and counterintuitive phenomenon called quantum entanglement. The basic idea of quantum entanglement is that two particles can be intimately linked to each other even if separated by billions of light-years of space; a change induced in one will affect the other. In 1964, physicist John Bell posited that such changes can occur instantaneously, even if the particles are very far apart. Bell’s Theorem is regarded as an important idea in modern physics, but it seems to make little sense. After all, Albert Einstein had proven years before that information cannot travel faster than the speed of light. Indeed, Einstein famously described the entanglement phenomenon as “spooky action at a distance.” In the last half-century, many researchers have run experiments that aimed to test Bell’s Theorem. But they have tended to come up short because it’s tough to design and build equipment with the needed sensitivity and performance, NASA officials said. Last year, however, three different research groups were able to perform substantive tests of Bell’s Theorem, and all of them found support for the basic idea. One of those studies was led by Krister Shalm, a physicist with the National Institute of Standards and Technology (NIST) in Boulder, Colorado. Shalm and his colleagues used special metal strips cooled to cryogenic temperatures, which makes them superconducting — they have no electrical resistance. A photon hits the metal and turns it back into a normal electrical conductor for a split second, and scientists can see that happen. This technique allowed the researchers to see how, if at all, their measurements of one photon affected the other photon in an entangled pair. The results, which were published in the journal Physical Review Letters, strongly backed Bell’s Theorem. “Our paper and the other two published last year show that Bell was right: any model of the world that contains hidden variables must also allow for entangled particles to influence one another at a distance,” co-author Francesco Marsili, of NASA’s Jet Propulsion Laboratory (JPL) in Pasadena, California, said in a statement. There are practical applications to this work as well. The “superconducting nanowire single photon detectors” (SNSPDs) used in the Shalm group’s experiment, which were built at NIST and JPL, could be used in cryptography and in deep-space communications, NASA officials said. NASA’s Lunar Atmosphere Dust and Environment Explorer (LADEE) mission, which orbited the moon from October 2013 to April 2014, helped demonstrate some of this communications potential. LADEE’s Lunar Laser Communication Demonstration used components on the spacecraft and a ground-based receiver similar to SNSPDs. The experiment showed that it might be possible to build sensitive laser communications arrays that would enable much more data to be up- and downloaded to faraway space probes, NASA officials said.

Read more

Feb 21, 2016

Bisbos.com :: Aerospace Illustration

Posted by in categories: nuclear energy, space travel

The first serious attempt to design a ship capable of travelling to the nearest stars. Weighing 50,000 tonnes, powered by nuclear fusion, travelling at 12% of the speed of light, the journey time would be close to 50 years.

Read more

Feb 21, 2016

Photonic Laser Propulsion to send a 100 kg vehicle to Mars in 3 days and to get to wafercraft to 30% of the speed of light

Posted by in categories: robotics/AI, space travel

Philip Lubin describes his appraoch to achieving laser driving spacecraft propulsion in the near term.

100kg robotic craft could be sent to Mars in 3 days.
1kg could go overnight to Mars.
50–100 GW could send a wafercraft to 30% of the speed of light and i would involve 10 minutes.

Read more

Feb 20, 2016

Reaching Mars in a few days? It’s possible, NASA video says

Posted by in category: space travel

Yes.


A new video released by the space agency discusses the possibility of speeding up our missions to other worlds by harnessing the power of lasers.

Read more

Feb 19, 2016

Photonic propulsion could send aircraft to Mars in ‘a few days’

Posted by in category: space travel

Researchers at the University of California Santa Barbara are aiming to use photonic propulsion technology to get aircraft to relativistic speeds, or more than one tenth of the speed of light.

Read more

Feb 14, 2016

Do not mess with time: Probing faster than light travel and chronology protection with superluminal warp drives

Posted by in categories: quantum physics, space travel, time travel

ABSTRACT

While General Relativity (GR) ranks undoubtedly among the best physics theories ever developed, it is also among those with the most striking implications. In particular, GR admits solutions which allow faster than light motion and consequently time travel. Here we shall consider a “pre-emptive” chronology protection mechanism that destabilises superluminal warp drives via quantum matter back-reaction and hence forbids even the conceptual possibility to use these solutions for building a time machine. This result will be considered both in standard quantum field theory in curved spacetime as well as in the case of a quantum field theory with Lorentz invariance breakdown at high energies. Some lessons and future perspectives will be finally discussed.

Read more

Feb 13, 2016

NASA Offers Space Tech Grants to Early Career University Faculty

Posted by in categories: robotics/AI, space travel

NASA’s Space Technology Mission Directorate is seeking proposals from accredited U.S. universities on behalf of outstanding early-career faculty members who are beginning independent research careers. The grants will sponsor research in specific high-priority areas of interest to America’s space program.

Aligned with NASA’s Space Technology Roadmaps and priorities identified by the National Research Council, the agency has identified topic areas that lend themselves to the early stage innovative approaches U.S. universities can offer for solving tough space technology challenges.

“These grants will allow us to support university faculty in conducting research and technology development to solve some of the challenges that we face on our journey to Mars,” said Steve Jurczyk, associate administrator for NASA’s Space Technology Mission Directorate in Washington. “Engaging the creative and innovative researchers at universities across the country provides opportunities to develop space technologies that drive robotic and human exploration of the solar system and beyond.”

Read more

Feb 12, 2016

Space and Technology Review: The Race to the Moon and Mars

Posted by in category: space travel

It’s an exciting time for space exploration. NASA, private companies, and several countries are all racing to colonize space. Soon we hope to become a multi-planetary species. But why?

This post explores why we’re racing to the Moon and Mars and who will get there and when.

This is Part 2 of our Space GGC Series focused on important issues facing us now:

Read more