PPPL Intern Promise Adebayo-Ige: Pursuing a lifelong interest in fusion energy
Princeton Plasma Physics LaboratoryPromise Adebayo-Ige was one of 45 interns at PPPL this past summer
Promise Adebayo-Ige was one of 45 interns at PPPL this past summer
The Princeton Plasma Physics Laboratory's 45 summer interns spent their summer doing hands-on research side-by-side with scientists and engineers at PPPL.
Features describes summer interns who built an acoustical levitator at PPPL.
PPPL kicks off a new apprentice program in which participants will receive competitive salaries and benefits as they learn on-the-job skills and take classes to become technicians.
Feature describes new collaborative facility hosted by PPPL and Princeton University to advance understanding and control of low-temperature plasma
Stellarators, twisty machines that house fusion reactions, rely on complex magnetic coils that are challenging to design and build. Now, a PPPL physicist has developed a mathematical technique to help simplify the design of the coils.
Profile of PPPL recipient of a 2019 DOE Early Career Research Award.
The exhaustive detection method that discovered the error field in the initial run of the NSTX-U tokamak could serve as a model for error-field detection in future tokamaks.
The Princeton Plasma Physics Laboratory, in partnership with the New Jersey Department of Labor, has embarked on a new apprenticeship program to teach high-tech skills to young people through four years of on-the-job training and technical courses.
Article describes first laboratory measurement of the precursors to high-energy astronomical shocks.
News release reports development of a cubic satellite, or CubeSat, as testbed for a microthruster with unique capabilities.
Subatomic particles zip around fusion machines known as tokamaks and sometimes merge, releasing large amounts of energy. Now, physicists have confirmed that an updated computer code could help to predict and ultimately prevent the particles from leaking from the magnetic fields confining them.
PPPL physicist Rajesh Maingi co-leads national program to develop strategy for use of flowing liquid lithium in fusion devices.
PPPL's Undergraduate Workshop in Plasma Physics is aimed at creating a more diverse pipeline into the plasma physics and fusion energy fields by offering students workshops in plasma physics, coding, and vector calculus as well as hands-on experiments in electromagnetism and plasma physics.
Article profiles honorific fellowship winner.
Now, a team of scientists has completed research into waves that travel through the magnetosphere, deepening understanding of the region and its interaction with our own planet, and opening up new ways to study other planets across the galaxy.
Feature reports discovery of an alternative method for measuring the stability of fusion plasma, a critical task for researchers seeking to bring the fusion that powers the sun to Earth.
Physicists from PPPL and General Atomics have concluded that injecting tiny beryllium pellets into ITER could help stabilize the plasma that fuels fusion reactions.
PPPL physicist brings astrophysical processes down to Earth
Quest, PPPL's annual research magazine, profiles laboratory achievements over the past year.
Feature describes PPPL role in innovative DOE program to promote public-private partnerships to speed development of fusion energy.
Analysis of energy loss in low-aspect ratio tokamaks opens a new chapter in the development of predictions of transport in such facilities.
Release proposes explanation for failure to focus accelerator-fired ion beams.
A team of scientists has for the first time created a particular form of coherent and magnetized plasma jet that could deepen the understanding of the workings of much larger jets that stream from newborn stars and possibly black holes.
Feature profiles four PPPL scientists who have received high honors.
Feature introduces video of interview with physicist William Tang describing the role of artificial of intelligence in fusion research. Feature includes a link to the video
Release describes application of machine learning form of artificial intelligence to predict the behavior of fusion plasma.
Scientists have created a novel method for measuring the stability of plasma in fusion facilities called “tokamaks.” Involving an innovative use of a mathematical tool, the method might lead to a technique for stabilizing plasma and making fusion reactions more efficient.
Feature describes three-year upgrade of the unique Lithium Tokamak Experiment that brings conditions in the device closer to those in a fusion reactor.
Feature describes Nature paper on opening a new chapter in fusion research with artificial intelligence.
PPPL physicists have discovered valuable information about how plasma flows at the edge inside doughnut-shaped fusion devices. The findings mark an encouraging sign for the development of machines to produce fusion energy for generating electricity without creating long-term hazardous waste.
Article describes analytical confirmation that transient CHI, a novel device for starting up fusion plasmas, can achieve startup in future compact fusion facilities.
Jon Menard, the head of research on the Princeton Plasma Physics Laboratory's National Spherical Torus Experiment-Upgrade, has been named deputy director for research. Michael Zarnstorff, who held the position for 10 years, will become the chief chief scientist at PPPL, a position that will oversee strategic scientific planning.
The Princeton Plasma Physics Laboratory's Young Women's Conference in STEM aims to change the statistics on women in STEM by inspiring girls through a day of hands-on science activities with female engineers and scientists and talks by early-career scientists. PPPL hosted 750 young women for the event on March 22 at Princeton University.
PPPL's Young Women's Conference in Science, Technology, Engineering and Mathematics on Friday, March 22, at Princeton University, seeks to change the statistics that show women still lag far behind men in the STEM fields. The conference offers 7th to 10th-grade girls hands-on science activities, exciting experiments, and talks and a keynote speech by early-career female scientists.
A detailed examination of the challenges and tradeoffs in the development of a compact fusion facility with high-temperature super-conducting magnets.
Princeton Plasma Physics Laboratory physicist Sam Cohen will receive $700,000 in the form of a subcontract from a $1.25 million award from the Advanced Research Projects Agency-Energy (ARPA-E) to upgrade and operate his Princeton Field Reversed Configuration device, the PFRC-2. The data produced could allow the design of future devices that might one day be used as a portable generator.
The DOE has extended until 2022 its contract with Princeton University to manage the Princeton Plasma Physics Laboratory, which is dedicated to enabling the scientific breakthroughs required to develop fusion as a safe, clean and abundant energy source.
Findings from an international team of scientists show that twisted magnetic fields can evolve in only so many ways, with the plasma inside them following a general rule.
Feature describes the first fully kinetic model of plasma particles showing that fast reconnection can indeed occur in partially ionized plasma.
Feature describes use of Magnetorotational Instability Experiment at PPPL to confirm an important mechanism involved in star formation.
Feature describes prototype of new device that mitigates disruption of fusion plasmas faster than the most developed techniques today.
EarthCam names remote-control experiment at PPPL one of 25 most interesting Webcams of 2018.
Feature describes first direct sighting of a trigger for bursts of heat that can disrupt fusion reactions.
Like surfers catching ocean waves, particles within plasma can ride waves oscillating through the plasma during fusion energy experiments. Now a team of physicists led by PPPL has devised a faster method to determine how much this interaction contributes to efficiency loss in tokamaks.
New findings further the understanding of a machine known as the magnetorotational instability experiment, which is named for and brings us closer to detecting the source of the instability that causes interstellar gas and dust to collapse into celestial bodies.
Feature describes newly discovered stabilizing effect of underappreciated 1983 finding that variations in plasma temperature can influence the growth of magnetic islands that lead to disruption of fusion plasmas.
Feature summarizes and links to discoveries and breakthroughs at the Princeton Plasma Physics Laboratory in 2018, plus a profile of the knight who leads the laboratory.
Astrophysicists are keen to learn why the sun’s corona is so hot. Scientists at PPPL have completed research that may advance the search.
Feature describes research of three PPPL physicists who have won the laboratory's 2018 outstanding research awards