{"id":8756,"date":"2018-10-05T10:04:05","date_gmt":"2018-10-05T10:04:05","guid":{"rendered":"https:\/\/wp.rinconeducativo.org\/?noticias=peering-36-million-degree-plasma-slacs-x-ray-laser"},"modified":"2022-12-12T13:44:29","modified_gmt":"2022-12-12T12:44:29","slug":"peering-36-million-degree-plasma-slacs-x-ray-laser","status":"publish","type":"post","link":"https:\/\/rinconeducativo.org\/en\/noticias\/peering-36-million-degree-plasma-slacs-x-ray-laser\/","title":{"rendered":"Peering into 36-million-degree plasma with SLAC\u2019s X-ray laser"},"content":{"rendered":"<p><span style=\"color:#6699ff;\"><span style=\"font-size:20px;\">In a first, researchers measure extremely small and fast changes that occur in plasma when it\u2019s zapped with a laser. Their technique will have applications in astrophysics, medicine and fusion energy.<br \/>\nBy Ali Sundermier<\/span><\/span><\/p>\n<p>When you hit a piece of metal with a strong enough laser pulse you get a plasma \u2013 a hot, ionized gas found in everything from lightning to the sun. Studying it helps scientists understand what\u2019s going on inside stars and could enable&nbsp;new types of particle accelerators for cancer treatment.<\/p>\n<p>Now a team of researchers has used an X-ray laser to measure, for the first time, how a plasma created by a laser blast expands in the hundreds of femtoseconds (quadrillionths of a second) after it\u2019s created. Their technique could eventually reveal tiny instabilities in the plasma that swirl like cream in a cup of coffee.<\/p>\n<p>The experiments at the Department of Energy\u2019s SLAC National Accelerator Laboratory involved scientists from SLAC, German research center Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and other institutions, and was reported in Physical Review X in September.<\/p>\n<p><span style=\"color:#6699ff;\"><span style=\"font-size:20px;\">Blasting cancer cells<\/span><\/span><\/p>\n<p>Led by scientist Thomas Kluge at HZDR, the researchers have been working to harness the behavior of plasma to create a new type of particle accelerator for proton therapy, an existing cancer treatment that involves blasting tumors with charged particles rather than X-rays. This approach is gentler on the surrounding healthy tissue than traditional radiation therapy.<\/p>\n<p>When solid matter is zapped with a laser the interaction forms a plasma, causing a steady stream of protons to burst out of the back side of the sample. The researchers hope to use the proton streams to storm tumors and obliterate cancer cells. But producing these fast protons in a reliable way requires a better understanding of how plasma changes as it expands.&nbsp;&nbsp;<\/p>\n<p>\u201cInstabilities can arise from the complex streams of electrons and ions moving back and forth in the plasma,\u201d Kluge says. \u201cYou probably know one of these instabilities from the mushroom-shaped clouds that form when you drip milk into your morning coffee.\u201d<\/p>\n<p><span style=\"color:#6699ff;\"><span style=\"font-size:20px;\">Hotter than ever<\/span><\/span><\/p>\n<p>Until now, it was difficult to probe plasma changes directly because they\u2019re so tiny and happen on extremely fast time scales. This work, says Josefine Metzkes-Ng, co-author and junior group leader at HZDR, could only be done at SLAC where the researchers used a high-power, short-pulse optical laser beam to create the plasma and the Linac Coherent Light Source X-ray free-electron laser to probe it.<\/p>\n<p>At the Matter in Extreme Conditions (MEC) instrument at LCLS, researchers create&nbsp;incredibly hot and dense matter that mimics the extreme conditions in the hearts of stars and planets. Simulations show that the researchers achieved a new temperature record for matter studied with a free-electron laser: 36 million degrees Fahrenheit, almost 10 million degrees hotter than the sun\u2019s core.<\/p>\n<p>The researchers fabricated solid samples that consisted of raised silicon bars, like knuckles sticking out from a fist. They found that in the quadrillionths of seconds after they zapped the sample with intense, short pulses from the optical laser, tiny amounts of plasma stacked up between the knuckles. A special form of scattering that uses X-ray pulses from LCLS allowed them to peer inside the plasma to follow its evolution.<\/p>\n<p>This technique will pave the way for better understanding plasma instabilities, allowing researchers to create proton sources for cancer therapy with relatively small footprints that, unlike conventional accelerators, can be operated within a hospital. It will also be useful in research relevant to fusion energy, other types of novel particle accelerators and laboratory astrophysics.<\/p>\n<p><span style=\"color:#6699ff;\"><span style=\"font-size:20px;\">Speedy cosmic particles<\/span><\/span><\/p>\n<p>Siegfried Glenzer, director of the High Energy Density Division at SLAC, who helped with the paper, is especially excited about the prospect of using this technique to better understand the astrophysical processes that give cosmic rays \u2013 subatomic space particles that plunge into Earth\u2019s atmosphere at almost the speed of light \u2013 their extreme energies.<\/p>\n<p>The highest-energy cosmic rays can pack a force comparable to that of a major league fastball hurtling toward a batter at 100 mph, condensed into a single subatomic particle. To accelerate a proton to the same energies as these cosmic rays, scientists would have to build an accelerator that sends particles traveling from Earth to Saturn and back.<\/p>\n<p>Using LCLS, scientists are able to recreate some of the astrophysical processes that may produce these high-energy cosmic rays, such as energetic jets that shoot out from the turbulent hearts of active galaxies. Now the new technique will allow them to directly observe the plasma instabilities that might be responsible for accelerating cosmic rays.<\/p>\n<p>\u201cCosmic rays are the largest particle accelerators known to mankind,\u201d Glenzer says. \u201cThey have a million times higher energy than particles accelerated in the Large Hadron Collider. Recently, astronomers traced a cosmic ray particle to an active galactic nucleus jet. Our goal is to produce these types of jets in the laboratory so we can study the formation of these instabilities and show whether they can accelerate particles to such high energies and, if so, how it happens.\u201d<\/p>\n<p><span style=\"color:#6699ff;\"><span style=\"font-size:20px;\">Flipping the light switch<\/span><\/span><\/p>\n<p>According to Kluge, \u201cThis research has opened the black box of how short-pulse lasers interact with solids, allowing us to directly see a little of what's going on, which previously could only be simulated with largely unverified atomic models.<\/p>\n<p>\u201cIt's a little like switching on a light,\u201d he says. \u201cAlthough we have some ideas, we don't know what we will find, but surely it will help us develop the next generation of laser-based ion accelerators and could shape new applications in astrophysics, medicine and plasma physics. For me as a theorist and simulation guy, the most exciting thing about this project is that I can now lay my simulations aside and look at the real thing.\u201d<\/p>\n<p>The research team also included scientists from Technical University Dresden, European XFEL, University of Siegen, Friedrich Schiller University&nbsp;Jena and Leibniz Institute of Photonic Technology, all in Germany.<\/p>\n<p>LCLS is a DOE Office of Science user facility. Funding was provided by the DOE Office of Science.<\/p>\n","protected":false},"excerpt":{"rendered":"<p>In a first, researchers measure extremely small and fast changes that occur in plasma when it\u2019s zapped with a laser. Their technique will have applications in astrophysics, medicine and fusion energy. By Ali Sundermier When you hit a piece of metal with a strong enough laser pulse you get a plasma \u2013 a hot, ionized [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":8755,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[7253],"tags":[5732],"class_list":["post-8756","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-noticias","tag-aplicaciones-de-la-tecnologia-nuclear"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v26.8 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Peering into 36-million-degree plasma with SLAC\u2019s X-ray laser - Rinc\u00f3n educativo<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/rinconeducativo.org\/en\/noticias\/peering-36-million-degree-plasma-slacs-x-ray-laser\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Peering into 36-million-degree plasma with SLAC\u2019s X-ray laser - Rinc\u00f3n educativo\" \/>\n<meta property=\"og:description\" content=\"In a first, researchers measure extremely small and fast changes that occur in plasma when it\u2019s zapped with a laser. 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