Home

Research

Neutron stars may hold an answer to neutron puzzle on Earth

In the Media

A math theory for why people hallucinate

Research
Condensed Matter
Condensed Matter Theory

New algorithm could help find new physics

In the Media

Liang Yang featured in Expert Viewpoints: "What is a neutrino and why do they matter?"

In the Media

Kwiat featured in Scientific American's "The Human Eye Could Help Test Quantum Mechanics"

Research
Biological Physics

Water compresses under a high gradient electric field

News

Research
Biological Physics
Biophysics

DNA enzyme shuffles cell membranes a thousand times faster than its natural counterpart

A new synthetic enzyme, crafted from DNA rather than protein, flips lipid molecules within the cell membrane, triggering a signal pathway that could be harnessed to induce cell death in cancer cells.

Researchers at University of Illinois at Urbana-Champaign and the University of Cambridge say their lipid-scrambling DNA enzyme is the first in its class to outperform naturally occurring enzymes – and does so by three orders of magnitude. They published their findings in the journal Nature Communications.

Accolades
High Energy Physics

Faulkner receives DOE Early Career Award

Assistant Professor of Physics Thomas Faulkner has been selected by the US Department of Energy (DOE) Office of Science to receive an Early Career Award. The DOE Early Career Research Program, now in its ninth year, provides award recipients with significant funding over a five year period. Faulkner is among 84 scientists at U.S. universities and DOE-supported national laboratories to be selected this year. He is one of only two scientists at the University of Illinois at Urbana-Champaign to receive the honor this year.

The Early Career Award recognizes promising scientists within 10 years of having earned their doctoral degrees, working in research areas supported by the DOE Office of Science. Faulkner’s research proposal in theoretical high-energy physics is entitled, “New perspectives on QFT and gravity from quantum entanglement.”

Research
Biological Physics
Biophysics

Researchers engineer bacteria to exhibit stochastic Turing patterns

The mechanism of pattern formation in living systems is of paramount interest to bioengineers seeking to develop living tissue in the laboratory. Engineered tissues would have countless potential medical applications, but in order to synthesize living tissues, scientists need to understand the genesis of pattern formation in living systems.

A new study by researchers at the University of Illinois at Urbana-Champaign, the Massachusetts Institute of Technology, and the Applied Physics Laboratory, Johns Hopkins University has brought science one step closer to a molecular-level understanding of how patterns form in living tissue. The researchers engineered bacteria that, when incubated and grown, exhibited stochastic Turing patterns: a “lawn” of synthesized bacteria in a petri dish fluoresced an irregular pattern of red polka dots on a field of green.

In the Media

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

Two CERN theoretical physicists have taken a page out of Google’s playbook in an attempt to better measure the impact of scientists and their published research. In a recent study published on arXiv, Alessandro Strumia and Riccardo Torre propose new metrics that use principles of Google’s PageRank algorithm, which determines the order in which websites appear in search results.

Research
Condensed Matter Theory

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

Cheaper and more efficient photonic devices, such as lasers, optical fibers, and other light sources, may be possible with confined light that is unaffected by imperfections in the material that confines it, according to new research. A team of physicists from Penn State, the University of Pittsburgh, and the University of Illinois have demonstrated in a proof-of-concept experiment that they can contain light in such a way that makes it highly insensitive to defects that might be present in a material. The results of the research appear online on June 4, 2018 in the journal Nature Photonics.

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.

Ask
the
Van

In beta decay, if a neutron spilts into a proton and an electron, why doen?t the mass number decrease? (because there is one less neutron). But the atomic number increases due. What happens to the electrons?

Find out now