Princeton, NJ - According to Morgan Kelly of Princeton University, "An international team led by Princeton University scientists has discovered an elusive massless particle theorized 85 years ago. The particle could give rise to faster and more efficient electronics because of its unusual ability to behave as matter and antimatter inside a crystal, according to new research."
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Princeton, NJ - According to Catherine Zandonella of the Office of the Dean of Research, "An experiment conducted by Princeton researchers has revealed an unlikely behavior in a class of materials called frustrated magnets, addressing a long–debated question about the nature of these discontented quantum materials. Published this week in the journal Science, the study also someday may help clarify the mechanism of high-temperature superconductivity, the frictionless transmission of electricity. The researchers tested the frustrated magnets — so-named because they should be magnetic at low temperatures but aren’t — to see if they exhibit a behavior called the Hall Effect. When a magnetic field is applied to an electric current flowing in a conductor such as a copper ribbon, the current deflects to one side of the ribbon."
New Brunswick, NJ – Rutgers, The State University of New Jersey, developed a new Business Portal, designed in consultation with industry leaders to serve New Jersey’s corporate community. The Business Portal offers users easy access to four key areas—research, technology licensing, professional development and recruiting—and provides two robust internal search functions and clear pathways to Rutgers’ Corporate Engagement Team, Office of Research Commercialization and Rutgers Translational Sciences.
Princeton, NJ - According to the Catherine Zandonella, Office of the Dean for Research, "Princeton University researchers have built a rice grain-sized laser powered by single electrons tunneling through artificial atoms known as quantum dots. The tiny microwave laser, or "maser," is a demonstration of the fundamental interactions between light and moving electrons."
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