News Â鶹´«Ã½ from Princeton Plasma Physics Laboratory display Latest news from Princeton Plasma Physics Laboratory on News en-us Copyright 2024 News News Â鶹´«Ã½ from Princeton Plasma Physics Laboratory 115 31 / /images/newswise-logo-rss.gif Spinning Fusion Fuel for Efficiency /articles/spinning-fusion-fuel-for-efficiency/?sc=rsin /articles/spinning-fusion-fuel-for-efficiency/?sc=rsin Tue, 19 Nov 2024 08:30:38 EST A new method to increase fusion-fuel efficiency would involve aligning the quantum spin of deuterium and tritium and changing the mix of the two fuels. The approach could boost tritium-burn efficiency by up to 10 times, reducing tritium needs and lowering fusion system costs. The technique could lead to safer, more compact fusion systems, making fusion energy more practical and affordable. Princeton Plasma Physics Laboratory Ensuring a Bright Future for Diamond Electronics and Sensors /articles/ensuring-a-bright-future-for-diamond-electronics-and-sensors/?sc=rsin /articles/ensuring-a-bright-future-for-diamond-electronics-and-sensors/?sc=rsin Tue, 05 Nov 2024 08:30:47 EST To expand the potential use of diamond in semiconductor and quantum technologies, researchers are developing improved processes for growing the material at lower temperatures that won't damage the silicon in computer chips. These advances include insights into creating protective hydrogen layers on quantum diamonds without damaging crucial properties like nitrogen-vacancy centers. Princeton Plasma Physics Laboratory Researchers Find Clues to the Mysterious Heating of the Sun's Atmosphere /articles/researchers-find-clues-to-the-mysterious-heating-of-the-sun-s-atmosphere/?sc=rsin /articles/researchers-find-clues-to-the-mysterious-heating-of-the-sun-s-atmosphere/?sc=rsin Fri, 11 Oct 2024 09:05:36 EST PPPL researchers have made a significant advancement in understanding the underlying heating mechanism of the sun's atmosphere, finding that reflected plasma waves could drive the heating of coronal holes. Princeton Plasma Physics Laboratory New AI Models of Plasma Heating Lead to Important Corrections in Computer Code Used for Fusion Research /articles/new-ai-models-of-plasma-heating-lead-to-important-corrections-in-computer-code-used-for-fusion-research/?sc=rsin /articles/new-ai-models-of-plasma-heating-lead-to-important-corrections-in-computer-code-used-for-fusion-research/?sc=rsin Wed, 09 Oct 2024 08:30:26 EST New artificial intelligence models for plasma heating can do more than was previously thought possible, not only increasing the prediction speed 10 million times while preserving accuracy but also correctly predicting plasma heating in cases where the original numerical code failed. Princeton Plasma Physics Laboratory Stopping Off-the-Wall Behavior in Fusion Reactors /articles/stopping-off-the-wall-behavior-in-fusion-reactors/?sc=rsin /articles/stopping-off-the-wall-behavior-in-fusion-reactors/?sc=rsin Mon, 07 Oct 2024 08:30:42 EST New experimental results suggest that sprinkling boron into a tokamak could shield the wall of the fusion vessel and prevent atoms from the wall from getting into the plasma. A new computer modeling framework shows the boron powder may only need to be sprinkled from one location. The experimental results and computer modeling framework will be presented this week at the 66th Annual Meeting of the American Physical Society Division of Plasma Physics in Atlanta. Princeton Plasma Physics Laboratory A New and Unique Fusion Reactor Comes Together with PPPL's Contributions /articles/a-new-and-unique-fusion-reactor-comes-together-with-pppl-s-contributions/?sc=rsin /articles/a-new-and-unique-fusion-reactor-comes-together-with-pppl-s-contributions/?sc=rsin Mon, 30 Sep 2024 08:30:42 EST As part of the global effort to harness power from fusing plasma, PPPL and the University of Seville's Plasma Science and Fusion Technology Lab worked on the computer codes, engineering and physics for a new and unique fusion reactor: the SMall Aspect Ratio Tokamak. Princeton Plasma Physics Laboratory Un nuevo y unico reactor de fusion culmina su construccion con la contribucion de PPPL /articles/smart-ofrece-un-plasma-de-fusi-n-f-cil-de-gestionar/?sc=rsin /articles/smart-ofrece-un-plasma-de-fusi-n-f-cil-de-gestionar/?sc=rsin Mon, 30 Sep 2024 08:30:36 EST Como parte del esfuerzo internacional para el desarrollo de la fusion nuclear como fuente de energia, PPPL contribuye al desarrollo y explotacion cientifica del SMall Aspect Ratio Tokamak, SMART, de la Universidad de Sevilla, con algunas de las simulaciones numericas, ingenieria y fisica del plasma mas avanzadas hasta la fecha. Princeton Plasma Physics Laboratory Replacing Hype About Artificial Intelligence with Accurate Measurements of Success /articles/replacing-hype-about-artificial-intelligence-with-accurate-measurements-of-success/?sc=rsin /articles/replacing-hype-about-artificial-intelligence-with-accurate-measurements-of-success/?sc=rsin Wed, 25 Sep 2024 05:00:00 EST A new paper in Nature Machine Intelligence notes that journal articles reporting how well machine learning models solve certain kinds of equations are often overly optimistic. The researchers suggest two rules for reporting results and systemic changes to encourage clarity and accuracy in reporting. Princeton Plasma Physics Laboratory Emily Carter Wins Prestigious Marsha I. Lester Award From American Chemical Society /articles/emily-carter-wins-prestigious-marsha-i-lester-award-from-american-chemical-society/?sc=rsin /articles/emily-carter-wins-prestigious-marsha-i-lester-award-from-american-chemical-society/?sc=rsin Tue, 24 Sep 2024 08:30:32 EST Nominees for the award must be members of the ACS's physical chemistry division. The winner receives the award at the meeting, gives a research presentation, and receives an honorarium. Carter is just the second person to receive this newly established award. Princeton Plasma Physics Laboratory PPPL Researcher Lan Gao Wins a DOE $2.75 Million Early Career Award to Develop Innovative Diagnostic Tools for Future Fusion Energy Devices /articles/pppl-researcher-lan-gao-wins-a-doe-2-75-million-early-career-award-to-develop-innovative-diagnostic-tools-for-future-fusion-energy-devices/?sc=rsin /articles/pppl-researcher-lan-gao-wins-a-doe-2-75-million-early-career-award-to-develop-innovative-diagnostic-tools-for-future-fusion-energy-devices/?sc=rsin Fri, 20 Sep 2024 13:05:05 EST PPPL research scientist Lan Gao received a $2.75 million Early Career Research Program Award from the U.S. Department of Energy for her research on innovative X-ray diagnostics to develop fusion energy. Gao recently became head of PPPL's High Energy Density Laboratory Plasmas Division of the Discovery Plasma Science Department. Princeton Plasma Physics Laboratory Trailblazers in Plasma Turbulence Computer Simulations Win 2024 James Clerk Maxwell Prize /articles/trailblazers-in-plasma-turbulence-computer-simulations-win-2024-james-clerk-maxwell-prize2/?sc=rsin /articles/trailblazers-in-plasma-turbulence-computer-simulations-win-2024-james-clerk-maxwell-prize2/?sc=rsin Mon, 16 Sep 2024 15:45:18 EST Greg Hammett and Bill Dorland have been awarded the 2024 James Clerk Maxwell Prize for Plasma Physics for their pioneering work on turbulence in plasma, a key challenge in the quest for fusion energy. Princeton Plasma Physics Laboratory Bubbling, frothing and sloshing: Long-hypothesized plasma instabilities finally observed /articles/bubbling-frothing-and-sloshing-long-hypothesized-plasma-instabilities-finally-observed/?sc=rsin /articles/bubbling-frothing-and-sloshing-long-hypothesized-plasma-instabilities-finally-observed/?sc=rsin Tue, 27 Aug 2024 08:30:55 EST PPPL scientists have observed new details of how plasma interacts with magnetic fields, potentially providing insight into the formation of enormous plasma jets that stretch between the stars. Princeton Plasma Physics Laboratory Quenching the intense heat of a fusion plasma may require a well-placed liquid metal evaporator /articles/quenching-the-intense-heat-of-a-fusion-plasma-may-require-a-well-placed-liquid-metal-evaporator/?sc=rsin /articles/quenching-the-intense-heat-of-a-fusion-plasma-may-require-a-well-placed-liquid-metal-evaporator/?sc=rsin Wed, 21 Aug 2024 08:30:46 EST New fusion simulations of the inside of a tokamak reveal the ideal spot for a "cave" with flowing liquid lithium is near the bottom by the center stack, as the evaporating metal particles should land in just the right spot to dissipate excess heat from the plasma. Princeton Plasma Physics Laboratory Laura Berzak Hopkins joins PPPL as new associate laboratory director for strategy and partnerships /articles/laura-berzak-hopkins-joins-pppl-as-new-associate-laboratory-director-for-strategy-and-partnerships/?sc=rsin /articles/laura-berzak-hopkins-joins-pppl-as-new-associate-laboratory-director-for-strategy-and-partnerships/?sc=rsin Mon, 12 Aug 2024 12:05:03 EST Seasoned national laboratory scientist and leader Laura Berzak Hopkins joins PPPL as its new associate laboratory director for strategy and partnerships and deputy chief research officer. Princeton Plasma Physics Laboratory Heating for fusion: Why toast plasma when you can microwave it! /articles/heating-for-fusion-why-toast-plasma-when-you-can-microwave-it/?sc=rsin /articles/heating-for-fusion-why-toast-plasma-when-you-can-microwave-it/?sc=rsin Tue, 06 Aug 2024 08:30:43 EST Can plasma be sufficiently heated inside a tokamak using only microwaves? New research suggests it can! Eliminating the central ohmic heating coil normally used in tokamaks will free up much-needed space for a more compact, efficient spherical tokamak. Princeton Plasma Physics Laboratory Creating loops of liquid lithium for fusion temperature control /articles/creating-loops-of-liquid-lithium-for-fusion-temperature-control/?sc=rsin /articles/creating-loops-of-liquid-lithium-for-fusion-temperature-control/?sc=rsin Tue, 23 Jul 2024 08:30:05 EST The thin slats of a PPPL prototype might create the ideal path for molten metal to carry away excess heat from a fusing plasma. Princeton Plasma Physics Laboratory Detecting defects in tomorrow's technology /articles/detecting-defects-in-tomorrow-s-technology/?sc=rsin /articles/detecting-defects-in-tomorrow-s-technology/?sc=rsin Tue, 09 Jul 2024 08:30:50 EST Researchers at the U.S. Department of Energy's Princeton Plasma Physics Laboratory are applying their expertise in physics, chemistry and computer modeling to create the next generation of computer chips, aiming for processes and materials that will produce chips with smaller features. Princeton Plasma Physics Laboratory Machine learning could aid efforts to answer long-standing astrophysical questions /articles/machine-learning-could-aid-efforts-to-answer-long-standing-astrophysical-questions/?sc=rsin /articles/machine-learning-could-aid-efforts-to-answer-long-standing-astrophysical-questions/?sc=rsin Tue, 02 Jul 2024 10:30:24 EST PPPL physicists have developed a computer program incorporating machine learning that could help identify blobs of plasma in outer space known as plasmoids. In a novel twist, the program has been trained using simulated data. Princeton Plasma Physics Laboratory Bhatia named new head of ITER projects at PPPL /articles/bhatia-named-new-head-of-iter-projects-at-pppl/?sc=rsin /articles/bhatia-named-new-head-of-iter-projects-at-pppl/?sc=rsin Thu, 13 Jun 2024 08:30:09 EST Ravinder Bhatia, a leader and engineer with three decades of experience managing collaborative science initiatives, is the new head of ITER projects at PPPL. In this role, Bhatia oversees the design and fabrication of six diagnostic systems that PPPL is building for ITER. Princeton Plasma Physics Laboratory AI approach elevates plasma performance and stability across fusion devices /articles/ai-approach-elevates-plasma-performance-and-stability-across-fusion-devices/?sc=rsin /articles/ai-approach-elevates-plasma-performance-and-stability-across-fusion-devices/?sc=rsin Wed, 12 Jun 2024 16:00:28 EST A team of fusion researchers led by engineers at Princeton University and the U.S. Department of Energy's Princeton Plasma Physics Laboratory (PPPL) have successfully deployed machine learning methods to suppress harmful edge instabilities -- without sacrificing plasma performance. The research team demonstrated the highest fusion performance without the presence of edge bursts at two different fusion facilities -- each with its own set of operating parameters. Princeton Plasma Physics Laboratory