IEEE CTS LMAG-CTCN 02.20.25 meeting: Potential Effects of Economic Policy in 2025

Virtual: https://events.vtools.ieee.org/m/463015

The talk will first present baseline trends for key indicators on the current economy, including budget and financial conditions. It will then discuss potential economic effects of possible policies of the new Trump administration. Speaker(s): Lee Price, Agenda: 6:00 to 6:05 PM - Open for participants to enter and network. 6:05 to 6:10 PM - IEEE LM and CTCN Business meeting and speaker introduction. 6:10 to 7:30 PM - Formal Program and Q&A. Virtual: https://events.vtools.ieee.org/m/463015

IEEE CTS LMAG-CTCN 02.20.25 meeting: Potential Effects of Economic Policy in 2025

Virtual: https://events.vtools.ieee.org/m/463015

The talk will first present baseline trends for key indicators on the current economy, including budget and financial conditions. It will then discuss potential economic effects of possible policies of the new Trump <a href="http://administration.Speaker(s):" target="_blank" title="administration.Speaker(s):">administration.Speaker(s): Lee Price, Agenda: 6:00 to 6:05 PM - Open for participants to enter and <a href="http://network.6:05" target="_blank" title="network.6:05">network.6:05 to 6:10 PM - IEEE LM and CTCN Business meeting and speaker <a href="http://introduction.6:10" target="_blank" title="introduction.6:10">introduction.6:10 to 7:30 PM - Formal Program and Q&A.Virtual: https://events.vtools.ieee.org/m/463015

Engineers in Real Life – 2025

Room: Atrium, Bldg: Bayou Building, 2700 Bay Area Blvd, University of Houston - Clear Lake, Houston, Texas, United States, 77059

Engineers from a range of industries and specialties will be at the University of Houston Clear Lake to show K-12 students the types of work they do and the careers available. No registration needed for students. Engineers who wish to participate must notify organizers by February 14th at 6pm. For more information: www.EngineersIRL.org Room: Atrium, Bldg: Bayou Building, 2700 Bay Area Blvd, University of Houston - Clear Lake, Houston, Texas, United States, 77059

Engineers in Real Life – 2025

Room: Atrium, Bldg: Bayou Building, 2700 Bay Area Blvd, University of Houston - Clear Lake, Houston, Texas, United States, 77059

Engineers from a range of industries and specialties will be at the University of Houston Clear Lake to show K-12 students the types of work they do and the careers <a href="http://available.No" target="_blank" title="available.No">available.No registration needed for students. Engineers who wish to participate must notify organizers by February 14th at 6<a href="http://pm.For" target="_blank" title="pm.For">pm.For more information:<a href="http://www.EngineersIRL.orgRoom:" target="_blank" title="www.EngineersIRL.orgRoom:">www.EngineersIRL.orgRoom: Atrium, Bldg: Bayou Building, 2700 Bay Area Blvd, University of Houston - Clear Lake, Houston, Texas, United States, 77059

Black Hills – Executive Committee Meeting (2025 Feb) via Zoom

Virtual: https://events.vtools.ieee.org/m/464034

Meeting for general administration and operation of the Black Hills <a href="http://Subsection.Virtual:" target="_blank" title="Subsection.Virtual:">Subsection.Virtual: https://events.vtools.ieee.org/m/464034

Engineering quantum Hall magnets in topological moiré systems

Room: 2-0113, Bldg: Building 2, 325 Broadway, Boulder, Colorado, United States, Virtual: https://events.vtools.ieee.org/m/469265

IEEE Magnetics Society Seminar Location: NIST, Boulder, 325 Broadway, Building 2, Room 2-0113 Date and Time: Tuesday, February 25th, 2025 Refreshments provided at 10:00 AM Seminar starts at 10:30 AM Engineering quantum Hall magnets in topological moiré systems Prof. Dacen Waters Department of Physics and Astronomy, University of Denver Strongly correlated and topological phases in condensed matter systems are at the cutting edge of fundamental physics studies, as well as being promising candidates for the next generation of technological capabilities like quantum computing. In recent years, a remarkable amount of progress has been made in creating and controlling such phases by introducing a small twist angle or lattice mismatch between two dimensional (2D) materials. These systems, called moiré systems, have facilitated the surprising discovery of strongly correlated phases where one might not expect them (e.g. superconductivity in “magic-angle” twisted bilayer graphene) or long-sought new physics (e.g. the fractional quantum anomalous Hall effect (FQAHE) in twisted MoTe2). However, much of the work in this rapidly developing field have focused on the case where the constituent 2D materials of the moiré system are monolayers, or at most bilayers. I will show that this restriction to one or two atomic layers is unnecessarily limiting. Surprising new phenomenology can be realized in graphitic moiré systems, where at least one component is three-layers or more. Most notably, we find that a new type of “moiré enabled” electron crystallization can occur that spontaneously breaks the moiré translational symmetry and has dissipationless edge modes, analogous to a topological version of a Wigner crystal. Our results suggest that these topological electron crystals 1) are at least somewhat common across multilayer graphene moiré systems, 2) can have uniquely tunable magnetization states, and 3) closely compete with the newly discovered FQAHE. Understanding this competition, as well as the novel phenomenology of the topological electron crystal phase, will be of fundamental interest in future studies of strongly correlated topological systems. Prof. Dacen Waters earned his bachelor’s degrees in physics and mechanical engineering from Arkansas Tech University. He then went on to get his PhD in physics at Carnegie Mellon University, under the supervision of Profs. Randy Feenstra and Ben Hunt. His PhD work focused on two-dimensional material and moiré systems using scanning tunneling microscopy. He then went on to be a postdoctoral fellow in Prof. Matthew Yankowitz’s lab at the University of Washington, where he was awarded a postdoctoral fellowship through the Oak Ridge Institute for Science and Education. At the University of Washington, he utilized transport studies to investigate novel correlated and topological states in graphitic moiré systems. In Fall of 2024, he began as an Assistant Professor in the University of Denver Department of Physics and Astronomy. Join ZoomGov Meeting https://nist.zoomgov.com/j/1619827375?pwd=4E5AjJBOt04WVK0pNPwpYCI4v3B8mj.1 Meeting ID: 161 982 7375 Passcode: 068475 Speaker(s): , Dacen Waters Room: 2-0113, Bldg: Building 2, 325 Broadway, Boulder, Colorado, United States, Virtual: https://events.vtools.ieee.org/m/469265

Engineering quantum Hall magnets in topological moiré systems

Room: 2-0113, Bldg: Building 2, 325 Broadway, Boulder, Colorado, United States, Virtual: https://events.vtools.ieee.org/m/469265

IEEE Magnetics Society SeminarLocation: NIST, Boulder, 325 Broadway, Building 2, Room 2-0113Date and Time: Tuesday, February 25th, 2025Refreshments provided at 10:00 AMSeminar starts at 10:30 AMEngineering quantum Hall magnets in topological moiré systemsProf. Dacen Waters Department of Physics and Astronomy, University of DenverStrongly correlated and topological phases in condensed matter systems are at the cutting edge of fundamental physics studies, as well as being promising candidates for the next generation of technological capabilities like quantum computing. In recent years, a remarkable amount of progress has been made in creating and controlling such phases by introducing a small twist angle or lattice mismatch between two dimensional (2D) materials. These systems, called moiré systems, have facilitated the surprising discovery of strongly correlated phases where one might not expect them (e.g. superconductivity in “magic-angle” twisted bilayer graphene) or long-sought new physics (e.g. the fractional quantum anomalous Hall effect (FQAHE) in twisted MoTe2). However, much of the work in this rapidly developing field have focused on the case where the constituent 2D materials of the moiré system are monolayers, or at most bilayers. I will show that this restriction to one or two atomic layers is unnecessarily limiting. Surprising new phenomenology can be realized in graphitic moiré systems, where at least one component is three-layers or more. Most notably, we find that a new type of “moiré enabled” electron crystallization can occur that spontaneously breaks the moiré translational symmetry and has dissipationless edge modes, analogous to a topological version of a Wigner crystal. Our results suggest that these topological electron crystals 1) are at least somewhat common across multilayer graphene moiré systems, 2) can have uniquely tunable magnetization states, and 3) closely compete with the newly discovered FQAHE. Understanding this competition, as well as the novel phenomenology of the topological electron crystal phase, will be of fundamental interest in future studies of strongly correlated topological <a href="http://systems.Prof" target="_blank" title="systems.Prof">systems.Prof. Dacen Waters earned his bachelor’s degrees in physics and mechanical engineering from Arkansas Tech University. He then went on to get his PhD in physics at Carnegie Mellon University, under the supervision of Profs. Randy Feenstra and Ben Hunt. His PhD work focused on two-dimensional material and moiré systems using scanning tunneling microscopy. He then went on to be a postdoctoral fellow in Prof. Matthew Yankowitz’s lab at the University of Washington, where he was awarded a postdoctoral fellowship through the Oak Ridge Institute for Science and Education. At the University of Washington, he utilized transport studies to investigate novel correlated and topological states in graphitic moiré systems. In Fall of 2024, he began as an Assistant Professor in the University of Denver Department of Physics and <a href="http://Astronomy.Join" target="_blank" title="Astronomy.Join">Astronomy.Join ZoomGov Meeting https://nist.zoomgov.com/j/1619827375?pwd=4E5AjJBOt04WVK0pNPwpYCI4v3B8mj.1 Meeting ID: 161 982 7375 Passcode: 068475Speaker(s): , Dacen WatersRoom: 2-0113, Bldg: Building 2, 325 Broadway, Boulder, Colorado, United States, Virtual: https://events.vtools.ieee.org/m/469265

Sarah Anderson – Legal perspectives on Artificial Intelligence

Virtual: https://events.vtools.ieee.org/m/462497

Cyber law specialist, Sarah Anderson, speaks on the legal actions developing around Artificial <a href="http://Intelligence.Speaker(s):" target="_blank" title="Intelligence.Speaker(s):">Intelligence.Speaker(s): Sarah, Virtual: https://events.vtools.ieee.org/m/462497

IEEE Denver PES/IAS Chapter February 2025 Meeting

Bldg: Denver Chophouse, 1735 19th St Ste 100, Denver, Colorado, United States, 80202, Virtual: https://events.vtools.ieee.org/m/469452

Join the IEEE PES/IAS Denver Chapter during our February technical meeting. Our guest speaker this month is Daniel Khoroshansky, President and Founder of Windward Coaching Services, <a href="http://LLC.Schedule6:00" target="_blank" title="LLC.Schedule6:00">LLC.Schedule6:00 – Check-in, Chapter Business and Networking6:30 – Dinner Served7:00 – Presentation8:00 – AdjournSummary:Title: Influence for Engineers — What is influence, and why mastering it can drive success at any levelDescription:Engineers hate corporate politics--I know I did. Naturally, we're inclined to spend most of our time solving cool problems for interesting customers, and prefer not to dabble in what we perceive as "games" that are played at senior levels in the <a href="http://workplace.What" target="_blank" title="workplace.What">workplace.What if there was another way of looking at this? What if small changes could drastically improve your ability to communicate with senior management, build coalitions, secure resources for your team & projects, push for raises and promotions, and overall lead to a more useful dialogue in the workplace?Engineers and engineering leaders that master this skill can elevate their careers and their team's successes to a whole new <a href="http://level.We'll" target="_blank" title="level.We'll">level.We'll explore tactics to identify areas in which influence plays a vital role in positive outcomes—even in a technical environment—and strategies to increase your sphere of influence in your professional/personal <a href="http://life.Speaker(s):" target="_blank" title="life.Speaker(s):">life.Speaker(s): DanBldg: Denver Chophouse, 1735 19th St Ste 100, Denver, Colorado, United States, 80202, Virtual: https://events.vtools.ieee.org/m/469452

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