BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Quantum Initiative - ECPv6.15.19//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH X-ORIGINAL-URL:https://quantum.ncsu.edu X-WR-CALDESC:Events for Quantum Initiative REFRESH-INTERVAL;VALUE=DURATION:PT1H X-Robots-Tag:noindex X-PUBLISHED-TTL:PT1H BEGIN:VTIMEZONE TZID:America/New_York BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20220313T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20221106T060000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20230312T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20231105T060000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20240310T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20241103T060000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20250309T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20251102T060000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20260308T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20261101T060000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;TZID=America/New_York:20251121T140000 DTEND;TZID=America/New_York:20251121T150000 DTSTAMP:20260502T130026 CREATED:20251111T210022Z LAST-MODIFIED:20251111T210023Z UID:10000466-1763733600-1763737200@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series - UNC Hosting Speaker DESCRIPTION:Details Coming Soon! \nUNC Hosting our Speaker on Nov. 21 \n  URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6-3/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20251114T140000 DTEND;TZID=America/New_York:20251114T150000 DTSTAMP:20260502T130026 CREATED:20251111T205740Z LAST-MODIFIED:20251111T205740Z UID:10000465-1763128800-1763132400@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series - No Speaker DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6-2/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20251107T140000 DTEND;TZID=America/New_York:20251107T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000464-1762524000-1762527600@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-11-07/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20251031T140000 DTEND;TZID=America/New_York:20251031T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000491-1761919200-1761922800@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-10-31/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20251024T140000 DTEND;TZID=America/New_York:20251024T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000490-1761314400-1761318000@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-10-24/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20251017T140000 DTEND;TZID=America/New_York:20251017T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000489-1760709600-1760713200@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-10-17/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20251003T140000 DTEND;TZID=America/New_York:20251003T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000488-1759500000-1759503600@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-10-03/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20250926T140000 DTEND;TZID=America/New_York:20250926T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000487-1758895200-1758898800@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-09-26/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20250919T140000 DTEND;TZID=America/New_York:20250919T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000458-1758290400-1758294000@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-09-19/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20250912T140000 DTEND;TZID=America/New_York:20250912T150000 DTSTAMP:20260502T130026 CREATED:20250909T220452Z LAST-MODIFIED:20250909T220452Z UID:10000469-1757685600-1757689200@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Speaker For September 12 \nTitle: Sequential quantum simulation of strongly correlated electron systems \nSpeaker: Shyam Shankar \nAffiliation: Electrical and Computer Engineering\, University of Texas at Austin \nThis event will not be recorded. \nPlease join us at 2pm Virtually \nNot receiving announcements with link –  Email: quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-7/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20250912T140000 DTEND;TZID=America/New_York:20250912T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000486-1757685600-1757689200@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-09-12/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20250905T140000 DTEND;TZID=America/New_York:20250905T150000 DTSTAMP:20260502T130026 CREATED:20250812T142402Z LAST-MODIFIED:20250812T142511Z UID:10000456-1757080800-1757084400@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:Details Coming Soon! \nUNC Hosting Sept 5 \nNC State Hosting Sept 12 \nHost TBD – Sept. 19 and 26 \nDuke Hosting Oct. 3 URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-6/2025-09-05/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20250815T140000 DTEND;TZID=America/New_York:20250815T150000 DTSTAMP:20260502T130026 CREATED:20250812T141001Z LAST-MODIFIED:20250812T141001Z UID:10000454-1755266400-1755270000@quantum.ncsu.edu SUMMARY:COMING IN SEPTEMBER: Triangle Quantum Computing Seminar Series DESCRIPTION:Our  Triangle Quantum Computing Seminar Series returns for Fall Semester 2025. \nSpeakers are hosted weekly by NC State\, UNC and Duke. \nOur collaborative virtual event is held every Friday at 2pm. \nThe first seminar for this semester on September 5\, 2025! \n  \n\n\nVisit our Quantum Seminar page for an archive of past speakers. \nFall Speaker List – Coming Soon! \nNot receiving the seminar announcement emails each week – – \nClick Link to be added to our email list. \n\n\nOther questions and correspondence can be sent to:  quantumhelp@ncsu.edu \nWe are looking forward to another semester of interesting quantum speakers! URL:https://quantum.ncsu.edu/event/coming-in-september-triangle-quantum-computing-seminar-series/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20241122T130000 DTEND;TZID=America/New_York:20241122T140000 DTSTAMP:20260502T130026 CREATED:20241108T050315Z LAST-MODIFIED:20241108T050315Z UID:10000315-1732280400-1732284000@quantum.ncsu.edu SUMMARY:Quantum process learning and variational quantum computing DESCRIPTION:Abstract\nParameterized quantum circuits serve as ansätze for solving variational problems and provide a flexible paradigm for programming near-term quantum computers. Here we discuss three fundamental criteria for this paradigm to be effective: expressibility\, trainability and generalizability. We will introduce these concepts and present recent analytic progress quantifying to what extent these criteria can be achieved. While more generally applicable\, the discussion will be framed around the example of trying to variationally learn an unknown quantum process. We will end with some more open-ended dreaming about the applications of these ideas for experimental quantum physics and quantum compilation. \nSpeaker Bio\n\n\n\n\n\n\n\n\nZoë Holmes  \nZoë Holmes received in 2015 her MPhil degree in Physics and Philosophy from the University of Oxford. In 2016 she obtained her MRes (Master of Research) from the Imperial College London\, where in 2019 she got her PhD in quantum thermodynamics. In 2020 she started as a Postdoctoral Researcher at Los Alamos National Laboratory (USA) working on quantum algorithms and quantum machine learning methods for Noisy Intermediate-Scale Quantum (NISQ) computers. In 2021 she became the Mark Kac Fellow at Los Alamos National Lab. Since August 2022 she is Tenure Track Assistant Professor of Physics at EPFL. URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-8/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20241115T130000 DTEND;TZID=America/New_York:20241115T140000 DTSTAMP:20260502T130026 CREATED:20241113T163800Z LAST-MODIFIED:20241116T041910Z UID:10000314-1731675600-1731679200@quantum.ncsu.edu SUMMARY:How to Make an Ion Trap DESCRIPTION:Abstract\nAmong the principal challenge facing scalability in ion trap quantum computers is the full integration of optics\, digital electronics\, and through-wafer vias into the trap chip. I will discuss Oxford Ionics’ strategy for developing ion trap quantum computers with 100s-1000s of ions\, then describe some of the methodologies for designing large-scale ion trap electrode structures and waveforms. \nSpeaker Bio\n\n\n\n\n\n\n\n\nCurtis Volin \nDr. Curtis Volin is Principal Ion Trap Designer with Oxford Ionics. Prior to joining Oxford Ionics in 2024\, he co-founded the Quantum Systems Group at the Georgia Tech Research Institute (GTRI) in 2005 and was Chief Scientist for Ion Trap Design at Quantinuum. He holds a B.S. in Applied and Engineering Physics from Cornell and a Ph.D. in Optical Sciences from The University of Arizona. He specializes in design and modeling of ion traps and ion trapping waveforms as well as planning and implementation of optics in experimental quantum systems. URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-9/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20241108T130000 DTEND;TZID=America/New_York:20241108T140000 DTSTAMP:20260502T130026 CREATED:20241101T171213Z LAST-MODIFIED:20241101T171213Z UID:10000313-1731070800-1731074400@quantum.ncsu.edu SUMMARY:Recent Advancements in Quantum Error Mitigation and Quantum Simulation DESCRIPTION:Abstract\nQuantum simulation is a key near-term application of quantum computing. I will present several recent advancements in quantum simulation techniques and error mitigation. I will discuss error mitigation strategies for estimating expectation values of local observables\, where we introduce a new Probabilistic Error Cancellation (PEC) estimator leveraging light-cone structures to drastically reduce sampling overhead. I will also describe our ‘shaded lightcone’ approach\, which combines classical bounds on error channel influence on the expectation values to optimize the bias-variance trade-off\, achieving up to a two-order-of-magnitude runtime reduction for circuits like 127-qubit Trotter circuits. Finally\, I will introduce an algorithm for simulating geometrically local Hamiltonians under small perturbations using the Magnus expansion in an interaction frame\, avoiding the need for ancillary qubits. This algorithm’s efficient computation is guaranteed by the Lieb-Robinson bound\, making it appealing for near-term and early-fault-tolerant quantum devices. \nSpeaker Bio\n\n\n\n\n\n\n\n\nMinh Tran \nMinh Tran is a quantum researcher who graduated from the University of Maryland in 2021. After completing his degree\, Minh embarked on a journey as a postdoctoral researcher at MIT before finding a home at IBM. Minh’s work explores the intricate connections between quantum algorithms and quantum many-body physics. URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-7/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20241025T130000 DTEND;TZID=America/New_York:20241025T140000 DTSTAMP:20260502T130026 CREATED:20241021T175702Z LAST-MODIFIED:20241023T021622Z UID:10000311-1729861200-1729864800@quantum.ncsu.edu SUMMARY:Quantum Generative Models of Financial Time Series DESCRIPTION:Abstract\nOur research program investigates quantum models for the simulation\, classification\, and prediction of financial time series. Financial processes\, such as asset prices\, interest rates\, and forex rates\, exhibit complex dynamics on different time scales. These processes are partially observable\, and we identify the underlying internal dynamics through stochastic observations. \nA promising research direction involves using quantum Completely Positive Trace Preserving (CPTP) maps\, or quantum channels\, as generative models of partially observable stochastic systems. This approach is motivated by the dual nature of the channel’s operator-sum representation. The representation can be interpreted both as a description of unobservable quantum dynamics and as a Positive Operator-Valued Measure (POVM) measurement\, where the outcomes correspond to specific operators defining the quantum process. \nTo quantize classical linear stochastic models\, such as Hidden Markov Models (HMMs) or\, more broadly\, Observable Operators Models (OOMs)\, as quantum channels\, we map the stochastic vector space and observable operators of the classical model to the space of density matrices and the corresponding operators of the quantum channel. We refer to these models as “quantum stochastic generators.” \nWe demonstrate that quantum stochastic generators provide a more efficient description of discrete stochastic processes in terms of state-space complexity compared to classical models. Specifically\, it is shown that for every classical OOM of order \( n \)\, there exists a quantum stochastic generator of order \( N = \sqrt{n} \) which generates the same stochastic process. \nWe propose an efficient parameterization of quantum stochastic generators as unitary circuits with mid-circuit measurements. By utilizing the space of unitary circuits as a hypothesis space\, we establish a formal learning model for the quantum generators. It is demonstrated that the landscape of the proposed learning model is smooth and auto-correlated. Smooth landscapes enable the implementation of efficient heuristic and gradient-based learning algorithms. For instance\, we discuss a learning algorithm developed through hyperparameter-adaptive evolutionary search\, which is used for learning generative models of synthetic and real-life financial time series. \nAs a future research opportunity\, we present several quantum generator architectures that implicitly and explicitly model processes with long-term dependencies. Finally\, quantum hardware implementations of the discussed models are demonstrated. \nSpeaker Bios\n\n\n\n\n\n\n\n\nVanio Markov\nDistinguished Engineer and Managing Director\nWells Fargo – Advanced Technology \nVanio Markov has 25 years of experience engineering and building sophisticated technology products in the areas of Financial Data Management\, Data Science\, and Intelligent Decision Making. \nHe has successfully led complex\, multimillion-dollar engineering organizations\, programs\, and projects\, delivering critical business solutions by leveraging global distributed computing and machine intelligence. \nVanio possesses deep expertise in financial risk management\, asset management\, and related stochastic modeling and computational intelligence. \nHis professional background includes roles at prominent companies such as Oracle Corp\, the global hedge fund administrator Citco\, Citigroup\, and Wells Fargo NA. \nHe holds advanced degrees in Systems Engineering and Control\, Applied Mathematics\, and Computer Science. \n\n\n\n\n\n\n\n\n\n\n\n\n\n\nDr. Vladimir Rastunkov\nComputational Scientist\nIBM Quantum \nDr. Vladimir Rastunkov is a computational scientist at IBM Quantum\, currently focusing on practical applications of quantum machine learning in financial services. \nWith over 15 years of experience in advanced analytics and machine learning\, Vladimir leads consulting and joint development research engagements. \n\n\n\n\n\n\n  URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-6/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20241011T130000 DTEND;TZID=America/New_York:20241011T140000 DTSTAMP:20260502T130026 CREATED:20241004T073730Z LAST-MODIFIED:20241011T141459Z UID:10000309-1728651600-1728655200@quantum.ncsu.edu SUMMARY:Low-overhead fault tolerance for transversal quantum algorithms DESCRIPTION:Abstract\nWe will discuss experimental and theoretical progress towards large-scale error-corrected quantum computation. First\, we report recent advances in quantum information processing using dynamically reconfigurable arrays of neutral atoms.  Using this logical processor with various types of error-correcting codes\, we demonstrate that we can improve logical two-qubit gates by increasing code distance\, create logical GHZ states\, and perform computationally complex quantum simulation of information scrambling. In performing such circuits\, we observe that the performance can be substantially improved by accounting for error propagation during transversal logical entangling gates and decoding the logical qubits jointly. We find that by using this correlated decoding technique and correctly handling feedforward operations\, the number of noisy syndrome extraction rounds in universal quantum computation can be reduced from O(d) to O(1)\, where d is the code distance. These techniques result in new theories of fault-tolerance and in practical reductions to the cost of large-scale computation by over an order of magnitude. \nSpeaker Bio\n\nMaddie Cain is a 6th year PhD student in theoretical physics working in Professor Mikhail Lukin’s group at Harvard University. Her research explores the theory of quantum information processing\, including topics spanning quantum algorithms and quantum error correction. She is interested in developing resource-efficient\, fault-tolerant compilations of useful quantum algorithms\, with a focus on reducing the overhead of error correction in hardware. She also closely collaborates with experimentalists in the Lukin group developing neutral atom arrays. \n  URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-4/ LOCATION:Virtual ORGANIZER;CN="IBM Quantum Innovation Center at NC State":MAILTO:quantumhelp@ncsu.edu END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20241004T130000 DTEND;TZID=America/New_York:20241004T140000 DTSTAMP:20260502T130026 CREATED:20240927T012835Z LAST-MODIFIED:20240928T001707Z UID:10000308-1728046800-1728050400@quantum.ncsu.edu SUMMARY:Progress and Challenges in Quantum Algorithms for Quantum Chemistry: Hard Lessons from the Field DESCRIPTION:Abstract\nOne of the standard arguments for building a quantum computer is that we might profitably use the entanglements between qubits to simulate the correlations between electrons and thus solve a myriad of important chemical and material design problems. While this is surely an elegant and effective one-line funding justification\, the devil is very much in the details. This talk will provide an overview of some significant progress made over the last five years in this area by both the field and in a few examples by the team I work with at QC Ware\, and will also discuss some serious challenges that remain for us to achieve practical quantum advantage for quantum chemistry. On the positive side\, some specific topics to be discussed are quantum number preserving gate fabrics that finally provide a clean mapping of electrons to qubits\, quantum symmetry adapted perturbation theory as a desperate riposte to the problem of subtractive cancellation in NISQ algorithms\, and quantum Krylov methods that might provide a compelling alternative to the variational quantum eigensolver. On the negative side\, we will look at the relentless progress of classical quantum chemistry methods for solving the average-case chemical problem\, the obvious difficulty of parameter optimization in variational quantum algorithms\, and the current state of performance of real hardware experiments. The resultant picture is that quantum chemistry remains a highly compelling target for practical quantum advantage\, but that urgent attention is needed to remove some dangerous remaining uncertainties in the field. \nSpeaker Bio\nRob Parrish leads the quantum chemistry technology mission at QC Ware. Rob has spent the bulk of his early career learning how to use many types of hardware to accelerate quantum chemistry codes\, including CPUs\, GPUs\, and even some forays into forthcoming QPUs. He has key interests in getting either more detailed or more complete information out of quantum chemistry codes\, as exemplified by his efforts to robustly decompose interaction energies with “F-SAPT” methodology or to provide complete workflows for experimental observables like spectroscopies and conformer distributions. Rob operates under the strong hypothesis that quantum chemistry is imminently due to provide the same digital transformation to chemistry that computational fluid dynamics did for aeronautical engineering\, and works daily to be a small part of that transformation. URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-3/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240927T130000 DTEND;TZID=America/New_York:20240927T140000 DTSTAMP:20260502T130026 CREATED:20240828T235409Z LAST-MODIFIED:20240829T000301Z UID:10000305-1727442000-1727445600@quantum.ncsu.edu SUMMARY:Quantum trading - a disturbance in the force (of supply and demand) DESCRIPTION:Abstract\nThe influence of information technologies such as the telegraph\, personal computers\, the internet\, and artificial intelligence has been profound\, driving significant global economic growth and creating substantial value. We are now on the brink of another technological revolution: the advent of quantum computers. Quantum computers leverage the principles of quantum physics\, offering two primary advantages—unprecedented computing speeds and the ability to solve problems that classical computers cannot\, particularly in finding optimal Nash equilibrium solutions in non-cooperative games\, which have broad applications in economics and finance. In this context\, we introduce a prototype for a “quantum trading” platform\, designed to use quantum computing to manage trades as scenarios of the Prisoner’s Dilemma\, a classic non-cooperative game. Remarkably\, our findings suggest that the traditional mass-sell market equilibrium is replaced by a more advantageous mass-buy market equilibrium when quantum computing is applied. We will explore the potential implications of such a quantum trading platform on short selling\, especially in emissions trading and green markets. \nSpeaker Bio\n\nDr. Faisal Shah Khan is a mathematician with a global track record in advancing quantum computing and quantum communication technology across academia\, government\, and industry. His contributions to the discipline include the use of matrix decomposition techniques for synthesis of quantum logic circuits\, manifold embedding to explore fixed-point guarantee of Nash equilibrium in quantum games\, and developing applications of first generation quantum computing platforms in business and finance. Dr. Khan is a research fellow at Rethinc. Labs in UNC Kenan-Flagler Business School and an adjunct professor at SKEMA Business School USA. He is also a member of the North Carolina Coalition for Global Competitiveness. \n  URL:https://quantum.ncsu.edu/event/quantum-trading-a-disturbance-in-the-force-of-supply-and-demand/ LOCATION:Virtual ORGANIZER;CN="IBM Quantum Innovation Center at NC State":MAILTO:quantumhelp@ncsu.edu END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240913T130000 DTEND;TZID=America/New_York:20240913T140000 DTSTAMP:20260502T130026 CREATED:20240829T174726Z LAST-MODIFIED:20240909T205739Z UID:10000322-1726232400-1726236000@quantum.ncsu.edu SUMMARY:Quantum Simulation of Spin-Boson Models with Structure Bath DESCRIPTION:Abstract\nThe spin-boson model\, involving spins interacting with a bath of quantum harmonic oscillators\, is a widely used representation of open quantum systems that describe many dissipative processes in physical\, chemical and biological systems. Trapped ions present an ideal platform for simulating the quantum dynamics of such models\, by accessing both the high-quality internal qubit states and the motional modes of the ions for spins and bosons\, respectively. We demonstrate a fully programmable method to simulate dissipative dynamics of spin-boson models using a chain of trapped ions\, where the initial temperature and the spectral densities of the boson bath are engineered by controlling the state of the motional modes and their coupling with qubit states. Our method provides a versatile and precise experimental tool for studying open quantum systems. \n  \nSpeaker Bio\nDr. Ke Sun received his B.S. in Physics from Shanghai Jiao Tong University in 2018. He received his PhD in Physics from Duke University in 2024. His thesis was titled “Quantum simulation of electron transfer dynamics using a trapped ion quantum system.” URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-talk-2/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240906T130000 DTEND;TZID=America/New_York:20240906T140000 DTSTAMP:20260502T130026 CREATED:20240828T225949Z LAST-MODIFIED:20240829T000820Z UID:10000303-1725627600-1725631200@quantum.ncsu.edu SUMMARY:Quantum Bayesian Framework for Efficient Storage of Quantum Information DESCRIPTION:Abstract\nSuperposition\, entanglement and nonlocality are the hallmarks of the quantum framework. In this talk\, we consider the problem of reliable storage of quantum information with qubit rate below its von Neumann entropy with controlled loss. This requires a transformation of the quantum source state into a more entangled reconstruction state with smaller entropy. Inspired by the duality connections between the data compression and data transmission problems in the classical setting\, we propose a new formulation for the lossy quantum data compression problem. This formulation differs from the existing quantum rate-distortion theory in two aspects. Firstly\, we require that the reconstruction of the compressed quantum source fulfill a nonlocal (global) error constraint as opposed to the sample-wise local entanglement fidelity criterion used in the standard rate-distortion setting. Secondly\, to measure the reconstruction error\, instead of a distortion observable\, we employ the notion of a backward quantum channel which we refer to as a `posterior reference map’. This is analogous to the posterior probability studied in the classical Bayesian framework. This leads to a novel quantum Bayesian perspective for lossy representation of quantum information. Using these concepts\, we design a quantum coding scheme consisting of an encoder and a decoder that transforms the source state into an entangled reconstruction state efficiently. We characterize the optimum performance in terms of single-letter coherent information of the given posterior reference map. It turns out that this leads to a new problem formulation even in the classical setting. We also look at this problem\, and characterize the optimum performance in terms of single-letter mutual information quantities with respect to appropriately defined channels analogous to the posterior reference map. We also provide several examples for the formulations. \nSpeaker Bio\nS. Sandeep Pradhan received his Ph.D degree from the Electrical Engineering and Computer Science (EECS) department of the Universlity of California at Berkeley in 2001. He has been a member of faculty in the department of EECS at the University of Michigan since 2002. His research interests include classical and quantum information processing. He is a Fellow of IEEE. \n  URL:https://quantum.ncsu.edu/event/quantum-bayesian-framework-for-efficient-storage-of-quantum-information/ LOCATION:Virtual ORGANIZER;CN="IBM Quantum Innovation Center at NC State":MAILTO:quantumhelp@ncsu.edu END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240823T140000 DTEND;TZID=America/New_York:20240823T150000 DTSTAMP:20260502T130026 CREATED:20240402T152727Z LAST-MODIFIED:20240402T152727Z UID:10000300-1724421600-1724425200@quantum.ncsu.edu SUMMARY:COMING SOON: Triangle Quantum Computing Seminar Series DESCRIPTION:Our weekly quantum computing seminar series returns Fall 2024. \nA virtual event is held every Friday at 2pm. \n\n\nSee our speakers at the Quantum Seminar page. \n\n\nIf you are not receiving the seminar announcement emails\, request to be added to our mailing list by e-mailing:  quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/coming-soon-triangle-quantum-computing-seminar-series/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240608T160000 DTEND;TZID=America/New_York:20240608T173000 DTSTAMP:20260502T130026 CREATED:20240603T175656Z LAST-MODIFIED:20240603T175915Z UID:10000301-1717862400-1717867800@quantum.ncsu.edu SUMMARY:Quantum Challenge Party DESCRIPTION:We are so excited to announce that North Carolina State University’s Quantum Computing Club will be hosting a virtual Quantum Challenge Party this Saturday alongside Duke’s Quantum Information Society and UNC’s Quantum Computing Club with guest speaker Jay Gambetta\, who is a leading voice in the quantum computing industry. \n\nYou are invited to join us\, all are welcome! It is a great opportunity to hear directly from a leader in quantum computing\, get started in quantum computing if you’re a beginner\, or practice your Qiskit 1.0 skills if you are already in the industry. We’ll have volunteers helping troubleshoot and answer any questions you may have about Qiskit 1.0 and the IBM Quantum Challenge. Please find the link below to register for this event and the IBM Quantum Challenge. The more the merrier\, so please share this event. Excited to see you then! \n\nRegister for the Event \n\nGet Started on the IBM Quantum Challenge URL:https://quantum.ncsu.edu/event/quantum-challenge-party/ LOCATION:Virtual ATTACH;FMTTYPE=image/png:https://quantum.ncsu.edu/wp-content/uploads/2024/06/ncsu_quantum_club_quantum_challenge_party_720.png END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240419T140000 DTEND;TZID=America/New_York:20240419T150000 DTSTAMP:20260502T130026 CREATED:20240402T151404Z LAST-MODIFIED:20240402T151404Z UID:10000297-1713535200-1713538800@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:A virtual event is held every Friday at 2pm. \n\n\nSee our speakers at the Quantum Seminar page. \n\n\nIf you are not receiving the seminar announcement emails\, request to be added to our mailing list by e-mailing:  quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-4/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240412T140000 DTEND;TZID=America/New_York:20240412T150000 DTSTAMP:20260502T130026 CREATED:20240402T151342Z LAST-MODIFIED:20240402T151342Z UID:10000296-1712930400-1712934000@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:A virtual event is held every Friday at 2pm. \n\n\nSee our speakers at the Quantum Seminar page. \n\n\nIf you are not receiving the seminar announcement emails\, request to be added to our mailing list by e-mailing:  quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-3/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20240405T140000 DTEND;TZID=America/New_York:20240405T150000 DTSTAMP:20260502T130026 CREATED:20240402T151447Z LAST-MODIFIED:20240402T151447Z UID:10000298-1712325600-1712329200@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:A virtual event is held every Friday at 2pm. \n\n\nSee our speakers at the Quantum Seminar page. \n\n\nIf you are not receiving the seminar announcement emails\, request to be added to our mailing list by e-mailing:  quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-5/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20231117T140000 DTEND;TZID=America/New_York:20231117T150000 DTSTAMP:20260502T130026 CREATED:20240402T151212Z LAST-MODIFIED:20240402T151233Z UID:10000278-1700229600-1700233200@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:A virtual event is held every Friday at 2pm. \n\n\nSee our speakers at the Quantum Seminar page. \n\n\nIf you are not receiving the seminar announcement emails\, request to be added to our mailing list by e-mailing:  quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series-2/ LOCATION:Virtual END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/New_York:20231020T140000 DTEND;TZID=America/New_York:20231020T150000 DTSTAMP:20260502T130026 CREATED:20231018T182709Z LAST-MODIFIED:20240402T151056Z UID:10000005-1697810400-1697814000@quantum.ncsu.edu SUMMARY:Triangle Quantum Computing Seminar Series DESCRIPTION:A virtual event is held every Friday at 2pm. \n\n\nSee our speakers at the Quantum Seminar page. \n\n\nIf you are not receiving the seminar announcement emails\, request to be added to our mailing list by e-mailing:  quantumhelp@ncsu.edu URL:https://quantum.ncsu.edu/event/triangle-quantum-computing-seminar-series/ LOCATION:Virtual END:VEVENT END:VCALENDAR