Home

Researchers engineer bacteria to exhibit stochastic Turing patterns

In the Media

Stelzer's "Madgraph" paper ranks 5th most impactful in physics since 2010, using new multi-generational-citation metric

Research
Condensed Matter Theory

Capturing light in a waveguide array: Confined, insensitive light could improve lasers, solar cells

Alumni News

Supercomputers provide new window into the life and death of a neutron

Research
Condensed Matter Theory

Yuxuan Wang and Eduardo Fradkin in Physical Review B, an editor's suggestion: 'Pair density waves in superconducting vortex halos'

Research

Nature Communications Editor's Pick: Madhavan group shows surprising effects of orbital nature of electronic band in topological crystalline insulator

News

Research
Condensed Matter Physics

Topological insulator 'flips' for superconductivity

Now, a novel sample-growing technique developed at the U. of I. has overcome these obstacles. Developed by physics professor James Eckstein in collaboration with physics professor Tai-Chang Chiang, the new “flip-chip” TI/SC sample-growing technique allowed the scientists to produce layered thin-films of the well-studied TI bismuth selenide on top of the prototypical SC niobium—despite their incompatible crystalline lattice structures and the highly reactive nature of niobium.

These two materials taken together are ideal for probing fundamental aspects of the TI/SC physics, according to Chiang: “This is arguably the simplest example of a TI/SC in terms of the electronic and chemical structures. And the SC we used has the highest transition temperature among all elements in the periodic table, which makes the physics more accessible. This is really ideal; it provides a simpler, more accessible basis for exploring the basics of topological superconductivity,” Chiang comments.

Research

Physical Review Letters editor's choice: mathematical model reveals how 1000 bacterial species can coexist

The surprising stability of large and diverse bacterial communities can be explained by a model that emphasizes the microbes’ food requirements. This research, led by bioengineering professor Sergei Maslov, an affiliate physics faculty member, was selected "Editor's Choice" in the April 13, 2018 issue of Physical Review Letters.

Events

1st Jeremiah Sullivan Memorial Lecture will focus on nuclear disarmament treaty, Monday, April 30th

The late Professor Emeritus of Physics and former Head of Department Jeremiah Sullivan served as the third director of the Program in Arms Control & Domestic and International Security (ACDIS) at the University of Illinois at Urbana-Champaign, from 1986 to 1994. Now, ACDIS and Illinois Physics are joining forces to present the First Jeremiah Sullivan Memorial Lecture, taking place on Monday, April 30, from 5 to 6 p.m., in 141 Loomis Laboratory in Urbana. This event is open to the public; there is no admission fee.

Dr. Jürgen Scheffran, a professor of geography at the University of Hamburg and senior research fellow at the Institute for Peace Research and Security Policy Hamburg, will deliver the talk, “Nuclear Disarmament and Civil Society: The Treaty on the Prohibition of Nuclear Weapons and the Nobel Peace Price for ICAN 2017.”

Accolades

Lance Cooper receives Excellence in Graduate Student Mentoring Award

Associate Head for Graduate Programs and Professor S. Lance Cooper has been awarded the 2018 Excellence in Graduate Student Mentoring Award of the Office of the Provost at the University of Illinois at Urbana-Champaign.

One of the Campus Awards for Excellence in Instruction conferred annually at the campus’s Celebration of Teaching Excellence, this accolade recognizes sustained excellence in graduate student mentoring; innovative approaches to graduate advising; major impact on graduate student scholarship and professional development; and other contributions in the form of courses and curricula, workshops, or similar initiatives. Cooper was presented with the award on April 12, 2018.

Diversity Program

Sloan Foundation grant continuation to help U. of I. improve STEM minority representation

The University of Illinois has received a three-year, $1 million grant from the Alfred P. Sloan Foundation to continue funding for the Sloan University Center of Exemplary Mentoring at Illinois. The program, started in 2015, supports underrepresented minority doctoral students in science, technology, engineering and math fields and is one of nine UCEMs throughout the country.

The UCEM emphasizes mentoring, professional development and social activities to build a community of scholars. The center hosts an extensive orientation program for new students, workshops and seminars in addition to financial support in the form of scholarships. The center also works with departments to set up a mentoring team for each scholar and monitors academic and research progress.

More news

The future of Physics

Support our commitment to train the next generation of researchers and teachers.

Find out how

Engineering Visionary Scholarships

$25 Million
Matching
Challenge

Now through the end of 2019, The Grainger Foundation will match all donations made to the College's Engineering Visionary Scholarship Initiative.

Learn more

Dark Matter, a Physics Illinois video

Hear leading-edge scientists explain what we know about one of the greatest mysteries of our time. What could it be? How do we know it’s there? And what ingenious methods are scientists, working in different subdisciplines of physics and astronomy around the globe, using to detect dark matter? Astrophysicist Jeff Filippini, astronomer Felipe Menanteau, experimental nuclear physicist Liang Yang, theoretical particle physicist Jessie Shelton, and experimental particle physicist Ben Hooberman provide an accessible overview of some of the most exciting scientific research that is ongoing today.

LabEscape

In the first science-based escape room, it's up to you and your team to save the free world from evil forces plotting its destruction, and you have precisely 60 minutes to do it. You must find out what happened to Professor Schrödenberg, a University of Illinois physicist who disappeared after developing a top-secret quantum computer. The previous groups of special agents assigned to the case disappeared while investigating the very room in which you now find yourself locked up, Schrödenberg's secret lab.