Education
PhD in Electrical Engineering from Purdue University (2020)
M.S. in Photonics from NTHU Taiwan (2016)
B.S. in EECS from NTHU Taiwan (2014)
Research Interests
Add a short description of Hsuan-Hao's research interests, current projects, and role in the lab.
Selected Publications
Beyond critical coupling: optimal design considerations for spontaneous four-wave mixing in microring resonatorsHigh-resolution tunable frequency beamsplitter enabled by an integrated silicon pulse shaperA paradigm for universal quantum information processing with integrated acousto-optic frequency beamsplittersOptimal coupling for spontaneous four-wave mixing in microring resonatorsWavelength contention in an entanglement networkUnitary acousto-optic beam splitters for frequency domain quantum information processingResilient entanglement distribution in a multihop quantum networkOn-chip pulse shaping of entangled photonsOn-chip frequency-bin quantum photonicsQuantum nonlocal modulation cancellation with distributed clocksAutomatic protection switching in an entanglement-based quantum networkNonlocal modulation of entangled photons with distributed RF clocks3 GHz-spaced frequency beam splitter using an on-chip pulse shaperManipulation of narrowband biphoton temporal correlations using an on-chip spectral shaperA single-photon polarization-frequency controlled-NOT gateTestbed and experiments for quantum-conventional networkingBuilding a controlled-NOT gate between polarization and frequencyCMOS photonic integrated source of ultrabroadband polarization-entangled photonsProcrustean entanglement concentration in quantum-classical networkingFoundry-fabricated photonic integrated circuit for flex-grid entanglement distributionShaping of time-resolved biphoton correlations with a microresonator-based spectral shaperProcrustean entanglement concentration for quantum-classical coexistencePolarization–frequency hyperentangled photons: generation, characterization, and manipulationCMOS photonic integrated circuit for flex-grid polarization entanglementToward quantum networking with frequency-bin quditsFrequency-bin photonic quantum informationCharacterization of quantum frequency processorsGeneration and characterization of ultrabroadband polarization–frequency hyperentangled photonsTime-resolved Hanbury Brown–Twiss interferometry of on-chip biphoton frequency combs using Vernier phase modulationFoundry-fabricated silicon source of broadband polarization entanglementProcrustean entanglement concentration in dense wavelength-division multiplexingTomography of ultrabroadband polarization-frequency hyperentangled photonsPolarization-entangled source for flex-grid C+L-band quantum networksModeling integrated quantum frequency processors towards robust quantum networksBiphoton spectral quantum interference for information processing and delay metrologyDesign methodologies for integrated quantum frequency processorsBroadband polarization-entangled source for C+L-band flex-grid quantum networksComplete frequency-bin Bell basis synthesizerA wavelength-multiplexing toolkit for quantum networkingBayesian tomography of high-dimensional on-chip biphoton frequency combs with randomized measurementsHigh-dimensional discrete Fourier transform gates with the quantum frequency processorBell state analyzer for spectrally distinct photonsModeling integrated quantum frequency processorsQuantum delay metrology with complete frequency-bin Bell basis synthesizerFrequency-bin Bell state generation via successive single and dual spectral-line pumpingNon-Gaussian state design with the quantum frequency processorQuantum networking and communications at Oak Ridge National LaboratoryA deployed quantum local area network with flex-grid technologyNon-Gaussian photonic state engineering with the quantum frequency processorReconfigurable quantum local area network over deployed fiberAdaptive bandwidth management for entanglement distribution in quantum networksRandomized tomography of on-chip biphoton frequency combsRemote state preparation in a reconfigurable quantum local area networkA reconfigurable quantum local area network over deployed fiberScaling the discrete Fourier transform gate in the quantum frequency processorA programmable electro-optic Bell-state analyzer for spectrally distinguishable photonsHigh-dimensional frequency-bin tomography with random measurementsFully arbitrary control of frequency-bin qubitsAgile frequency transformations for dense wavelength-multiplexed communicationsEfficient compressive and Bayesian characterization of biphoton frequency spectraAll-optical frequency processor for networking applicationsA Bell-state analyzer for photonic frequencyBayesian reconstruction of biphoton frequency correlationsArbitrary single-qubit transformations on a quantum frequency processorFlex-grid spectrum allocation for entanglement distribution in quantum networksAll-optical frequency hopping and broadcasting in wavelength-multiplexed channelsAdaptive bandwidth management for entanglement distribution in a fully-connected fiber-optic networkCompressive characterization of biphoton frequency spectraQuantum frequency combs and Hong–Ou–Mandel interferometry: the role of spectral phase coherenceQuantum information processing with frequency-comb quditsQuantum information processing in the frequency domainSimulations of subatomic many-body physics on a quantum frequency processorA controlled-NOT gate for frequency-bin qubitsAll-optical processing with dynamic frequency transformationsBayesian machine learning of frequency-bin CNOTSubatomic many-body physics simulations on a quantum frequency processorSpectral phase coherence in HOM interferometryQuantum interference and correlation control of frequency-bin qubitsElectro-optic frequency beamsplitters and tritters for high-fidelity quantum information processingExperimental demonstration of CNOT gate for frequency-encoded qubitsTwo-photon interference and entanglement control via reconfigurable quantum frequency processorLinear-optical frequency beamsplitter for fiber-optic quantum networksElectro-optic frequency beamsplitter for quantum networking applications