Physics

Benjamin Bloom Atom Computing Abstract: Neutral atoms trapped in optical tweezers are a promising platform for implementing scalable quantum computers. Here I introduce a system with the ability to individually […]

Gordan Krnjaic Fermilab Abstract: The longstanding muon g-2 anomaly is perhaps the largest discrepancy in fundamental physics and could become the first laboratory discovery of physics beyond the Standard Model of particles and interactions. […]

Yuzhe Xiao University of Wisconsin-Madison Abstract: Every hot object emits electromagnetic radiation, which is called thermal radiation or thermal emission. Thermal radiation is a ubiquitous phenomenon, with examples including the […]

Ahmad Kirmani NREL Abstract: The ability to render semiconductors into inks and to print them with bespoke properties promises the herald of next-generation low-cost printed semiconductor electronics for terrestrial and […]

Brian Smith University of Oregon Abstract: Entanglement, the correlations displayed between sub- systems of a multipartite quantum system, is one of the most distinguishing properties of quantum physics and a […]

Pei-Cheng Ku University of Michigan, Electrical Engineering & Computer Science Abstract: Gallium nitride (GaN) semiconductors are best known for their revolutionary applications in creating significant energy savings for electric lights […]

Join us for undergraduate research posters, food, drinks, and physics! CoorsTek lobby

Environmental Health & Safety Department Colorado School of Mines MANDATORY safety training for faculty, staff, postdocs, grad students, and undergraduates working in laboratories. All lectures held in CoorsTek 140 unless otherwise specified

Christina Willis ColdQuanta Abstract: Sustainability applied to networking is about treating professional support and assistance like a resource and creating more of it than you take. This workshop introduces how to use sustainable networking to create mutually beneficial professional relationships and to set and accomplish career goals. Through individual and group activities, participants will come away […]

Robert McLeod University of Colorado @ Boulder, Electrical, Computer & Energy Engineering Abstract: Additive manufacturing of polymers is now an established technique in industries from athletic wear to orthodontics.  However, these methods are limited in further societal impact because each part requires hours of labor from trained technicians working in chemical handling facilities.  A recently […]

John Gamble IonQ Abstract: Quantum computing has the potential to revolutionize the way we solve many problems, ranging from analyzing chemical reactions to cryptography. However, building these machines in practice is an incredibly challenging engineering exercise, and many organizations are competing in the race toward practical quantum computers. In this talk, I'll introduce the core […]

Scott Diddams NIST, Optical Frequency Measurement Group & CU Boulder, Depts. of Electrical Engineering and Physics Abstract: The optical frequency comb is one of the most significant advances in laser […]

Grad students doing lightning talks: 3 talks at 12 minutes each!   All lectures in CoorsTek 140 unless otherwise noted

Brian Simonds NIST Abstract: Continuous-wave high-power lasers have evolved from bulky, inefficient tools with only niche applications to reliable photon appliances that have rapidly been adopted by industry. Accordingly, the metrology of these laser systems has also advanced. The Sources and Detectors group at the National Institute of Standards and Technology (NIST) develops and maintains […]

Nuris Figueroa-Morales University of Colorado @ Boulder, Physics Department Abstract: Advancements in medicine and environmental remediation require investigation into bacterial transport and accumulation in confined geometries with the presence of flow. By looking at the dynamics of Escherichia coli bacteria in narrow microfluidic channels, we identify a phenomenon of upstream “super-contamination” of bacteria that depends on the […]

Kathryn R. Hamilton University of Colorado at Denver Abstract: Since their discovery in the late 1800’s, electrons have been a constant source of curiosity for scientists. Their properties and behavior have been studied and harnessed to produce some of the greatest inventions of the past century, including electron microscopes and particle accelerators. However one fundamental […]

Manuel A. Castellanos-Beltran NIST Abstract: Over the last two decades there has been tremendous interest in the advance of large-scale quantum computers. In particular, superconducting quantum processors has become the leading candidate for scalable quantum computing plat-form. Some of the initial research that paved the way for this field to take off was done at […]

Matt Beard National Renewable Energy Laboratory (NREL) Abstract: In this presentation I will discuss our studies of controlling the charge carrier dynamics, light/matter interactions, and spin populations in metal-halide organic/inorganic hybrid systems. Lower dimensional perovskites are of particular interest since the lower degree of symmetry of the metal-halide connected octahedra and the large spin-orbit coupling […]

Minghzhong Wu Colorado State University, Department of Physics Abstract: Dirac semimetals are a recently discovered topological phase of quantum matter. α-Sn is unique among the Dirac semimetals because it is a single-element material and is therefore relatively easy to grow. Further, it can be transformed into other topological phases, such as a topological insulator or […]

Hilary Hurst San José State University, Department of Physics & Astronomy Abstract: Superposition and entanglement are essential quantum properties which can be easily destroyed, rendering quantum devices useless. New modes of harnessing system-environment coupling can instead enable robust, entangled quantum phases and provide a route toward scalable quantum technologies. Weak measurement is one such route, […]

Kaveh Ahadi North Carolina State University, Department of Materials Science and Engineering Abstract: The intersection of emergent phenomena, e.g., ferroelectricity, magnetism, and superconductivity, is a fertile landscape for exotic quantum orders. In this presentation, I will talk about engineering these cooperative orders in complex oxides and chalcogenide thin films and heterostructures. I will present our […]

Andras Gyenis University of Colorado @ Boulder, Electrical, Computer & Energy Engineering Abstract: Quantum-based electronics is a rapidly accelerating technology, where information is encoded in the quantum mechanical states of coupled natural or artificial atoms. To unlock the exceptional potential of quantum computers, one of the key challenges that the field has to overcome is […]

Davide Venturelli Universities Space Resource Association (USRA) Abstract: we discuss the field of quantum optimization and its near-term viability in gate model quantum processors. We will look at hardware efficient algorithm design and experimental results targeting problems with many qubits, and discuss how to benchmark solvers in search of quantum advantage. Bio: Davide Venturelli is […]

Emily Edwards Illinois Quantum Information Science & Technology Center (IQUIST) Abstract: Increasing public awareness and engagement with quantum-related topics in modern physics is of importance given the projected societal impact […]

Thomas Fix University of Strasbourg, ICube Labroratoy (CNRS) Abstract: This seminar will give an overview of three different topics currently investigated in the Materials for electronic and photovoltaic devices team (MaCEPV) of ICube laboratory. Downshifting and downconversion for solar cells Downshifting and downconversion are advanced concepts for solar cells enabling a better match between the […]

Tim Sweitzer Colorado School of Mines, Environmental Health & Safety All lectures in Hill Hall 202 unless otherwise specified

Lawrence Wiencke Colorado School of Mines, Physics Department Abstract: Ultra-high energy cosmic rays are the highest energy subatomic particles known to exist. Although much harder to detect, very high-energy neutrinos also carry information about the most extreme environments in the universe. And since they have zero charge, they point back to their creation point. The […]