Plasma Science and Engineering
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Arthur Xiao wins SID Detroit Metro Chapter Academic Award for work on red micro-LEDs
Xiao’s PhD work has focused on developing tiny, efficient, and stable red LEDs for use in virtual and augmented reality displays.An OLED for compact, lightweight night vision
Thinner than a human hair, the device amplifies and converts near infrared light into visible light with the potential for low power consumption and long battery life.In step toward solar fuels, durable artificial photosynthesis setup chains two carbons together
The system produces ethylene, an important ingredient of many plastics, with much higher efficiency, yield and longevity than competing systems.Michigan Plasma prize honors University of Illinois professor
U-Michigan Institute for Plasma Science and Engineering celebrates David Ruzic's advances in plasma-aided semiconductor manufacturing and fusion.Soon-to-be most powerful laser in the US is open for experiments
The NSF-supported facility at U-M is about to begin welcoming researchers to study extreme physics that could advance medicine, microelectronics and more.First light soon at the most powerful laser in the US
The ZEUS laser at the University of Michigan has begun its commissioning experimentsCoordination and collaboration are critical to U.S. leadership in plasma science: a Q&A with the Plasma 2020 Decadal Study co-chair
Plasma science has the potential to speed advances in medicine, energy, electronics and more—including helping us deal with pandemics.
Plasma jet wands could rapidly decontaminate hospital rooms
Room-temperature plasma beams could essentially dissolve away bacteria and viruses.
U-M to become Mount Olympus with ZEUS, the most powerful laser to be built in the U.S.
The three-petawatt system could unlock secrets of the universe, advance cancer treatments, improve security screenings for nuclear threats, and much more.
Beyond Apollo 11: U-M ECE’s role in advancing space exploration
For the 50th anniversary of the Apollo 11 moon landing, U-M ECE takes a look back – and a look forward – to how our professors, students, and alums have made their mark on the field.
Louise Willingale creates extreme plasma conditions using high-intensity laser pulses
Prof. Willingale’s research in plasma physics advances many research areas from spectacular astrophysical phenomena to cancer treatment to fusion power.
ECE student Brandon Russell explores space phenomena in a lab
PhD student Brandon Russell is awarded the Rackham International Student Fellowship for his research on magnetic fields in high-energy plasmas, which could help advance the development of clean energy and our understanding of energetic astrophysical phenomena.
Louise Willingale advancing scientific knowledge of plasmas
Using some of the best lasers in the world, Willingale is shedding light on the impact of solar events on Earth.
Mark J. Kushner receives Stephen S. Attwood Award from College of Engineering
The Stephen S. Attwood Award is the most prestigious award that the College of Engineering bestows.
Mark Kushner receives Plasma Chemistry Award for lifetime of achievement
Prof. Kushner is an internationally renowned expert in the area of low-temperature plasma simulation.
Next generation laser plasma accelerator
One of the most promising avenues for achieving new target levels of high peak intensity and high average power in an ultrafast laser system is to turn to fiber lasers.
Stephen Forrest named Peter A. Franken Distinguished University Professor
Prof. Forrest is internationally-renowned and easily one of the most prolific inventors in academia today.
Mark Kushner awarded 2015 IEEE NPSS Charles K. Birdsall Award
Prof. Kushner is an internationally renowned expert in the area of low-temperature plasma simulation.
Cheng Zhang receives Optical Sciences Scholarship
Cheng is a 4th year PhD candidate in Electrical Engineering working in field of micro/nano-scale optical device physics and fabrication.
Jun-Chieh Wang receives Best Oral Paper Award for plasma research
Wang’s research studies the glow-like atmospheric pressure microdischarges created under specialized conditions in laser printers.