Scientists explore the possibility of using antimatter to power a spacecraft, highlighting the challenges and potential of this revolutionary propulsion system.
Getting places in space quickly has been the goal of propulsion research for a long time. Rockets, our most common means of doing so, are great for providing lots of force but extraordinarily inefficient. Other options like electric propulsion and solar sailing are efficient but offer measly amounts of force, albeit for a long time.
So scientists have long dreamed of a third method of propulsion – one that could provide enough force over a long enough time to power a crewed mission to another star in a single human lifetime. And that could theoretically happen using one of the rarest substances in the universe – antimatter. A new paper from Sawsan Ammar Omira and Abdel Hamid I. Mourad at the United Arab Emirates University looks at the possibilities of developing a space drive using antimatter and what makes it so hard to create. Antimatter was initially discovered in 1932 when physicist Carl David Anderson observed positrons – the antimatter form of an electron – in cosmic rays by passing them through a cloud chamber. He won the Nobel Prize in physics in 1936 for his discovery. It took 20 years to create it artificially for the first time. Since then, antimatter has been poked and prodded in as many ways as scientists could think of – including literally, but that causes the thing that antimatter is most famous for – self-annihilation. When an antimatter proton comes into contact with protons or neutrons of normal matter, they annihilate one another and release a combination of energy (typically in the form of gamma rays) and also high-energy short-lived particles, known as pion and kaon, which happen to be traveling at relativistic speeds. So, in theory, a ship could contain enough antimatter to intentionally create this annihilation explosion, using the relativistic particles as a form of thrust and potentially using the gamma rays as a source of power. The overall amount of energy released from a gram of antiprotons being annihilated is 1
ANTIMATTER SPACE PROPULSION ENERGY SCIENCE COSMOLOGY
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