Research: Difference between revisions

PI: Prof. Daniel Blumenthal (Google Scholar) • Group Website

Develops ultra-low-loss silicon nitride (Si₃N₄) photonic integrated circuits for stimulated Brillouin lasers, optical gyroscopes, optical frequency synthesis, and emerging atom-photonic quantum integration on chip.

Selected Recent Publications:

• Integrated optical frequency division for microwave and mmWave generation — Nature 627, 540–545 (2024). DOI
• Integrated photonic molecule Brillouin laser with a high-power sub-100-mHz fundamental linewidth — Optics Letters 49(1), 45–48 (2024). DOI

PI: Prof. John Bowers (Google Scholar) • Silicon Photonics • AIM Photonics • IEE

Leads research on heterogeneous integration of III-V materials on silicon for lasers, amplifiers, and modulators, as well as advanced silicon photonic platforms for datacom, telecom, and ultra-narrow-linewidth laser sources.

Selected Recent Publications:

• Roadmapping the next generation of silicon photonics — Nature Communications 15, 751 (2024). DOI
• Lithium niobate photonics: Unlocking the electromagnetic spectrum — Science 379(6627) (2023). DOI

PI: Prof. Jonathan Klamkin (Google Scholar) • Group Website

Specializes in III-V photonic integrated circuits for free-space optical communications, LiDAR, microwave photonics, and monolithic integration of III-V quantum dot lasers on silicon via selective area heteroepitaxy.

Selected Recent Publications:

• Selective area heteroepitaxy of low dislocation density antiphase boundary free GaAs microridges on flat-bottom (001) Si for integrated silicon photonics — Applied Physics Letters 118, 122106 (2021). DOI
• Towards fully monolithic silicon-based integrated photonics: MOCVD grown lasers on silicon by blanket and selective area heteroepitaxy — Proc. SPIE (Photonics West, 2022). DOI

PI: Prof. Clint Schow (Google Scholar) • Group Website

Develops energy-efficient optical interconnects for data centers, with emphasis on analog coherent detection architectures that eliminate power-hungry DSP, leveraging silicon photonics and co-packaged optics.

Selected Recent Publications:

• A Monolithic O-Band Coherent Optical Receiver for Energy-Efficient Links — IEEE Journal of Solid-State Circuits 59(5) (2024). DOI
• Analog Coherent Detection for Energy Efficient Intra-Data Center Links at 200 Gbps Per Wavelength — Journal of Lightwave Technology 39(2) (2021). DOI

PI: Prof. Jon Schuller (Google Scholar) • Group Website

Investigates light-matter interactions at the nanoscale, designing dielectric and semiconductor metasurfaces for directional light emission, magneto-optical traps, and active reconfigurable photonic devices.

Selected Recent Publications:

• High efficiency large-angle polarization-insensitive retroreflecting metasurface for magneto-optical traps — Applied Physics Letters 124, 251704 (2024). DOI
• Optimizing Polarization Selective Unidirectional Photoluminescence from Phased-Array Metasurfaces — Advanced Optical Materials (2024). DOI

PI: Prof. Dirk Bouwmeester (Google Scholar) • Group Website

Explores quantum optics and cavity quantum electrodynamics with semiconductor quantum dots, optomechanical systems using phononic crystal membranes, and quantum decoherence phenomena.

Selected Recent Publications:

• Single-emitter quantum key distribution over 175 km of fibre with optimised finite key rates — Nature Communications 14, 3573 (2023). DOI
• Phononically shielded multi-wavelength photonic-crystal membrane for cavity quantum optomechanics — Optics Express 33(4), 8203 (2025). DOI

PI: Prof. Galan Moody (Google Scholar) • Group Website

Develops integrated quantum photonic devices on chip-scale platforms, including entangled photon-pair sources from microring resonators, 2D material quantum emitters, and scalable single-photon technologies for quantum networking.

Selected Recent Publications:

• 2022 Roadmap on integrated quantum photonics — Journal of Physics: Photonics 4, 012501 (2022). DOI
• Defect and strain engineering of monolayer WSe₂ enables site-controlled single-photon emission up to 150 K — Nature Communications 12, 3585 (2021). DOI

PI: Prof. Ania Bleszynski Jayich (Google Scholar) • Group Website (10⁻⁹ Lab)

Engineers nitrogen-vacancy (NV) centers in diamond for ultra-sensitive nanoscale magnetometry and quantum sensing. Recent breakthroughs leverage many-body quantum dynamics for signal amplification in solid-state quantum sensors.

Selected Recent Publications:

• Signal amplification in a solid-state sensor through asymmetric many-body echo — Nature 646, 68–73 (2025). DOI
• Scalable nanoscale positioning of highly coherent color centers in prefabricated diamond nanostructures — Nature Communications 16 (2025). DOI

PI: Prof. Chris Palmstrom (Google Scholar) • Group Website

Grows quantum materials by molecular beam epitaxy (MBE), including III-V semiconductor heterostructures, Heusler compounds, and superconductor/semiconductor hybrids for topological quantum computing and superconducting circuits.

Selected Recent Publications:

• Cryogenic Growth of Tantalum Thin Films for Low-Loss Superconducting Circuits — Physical Review Applied 23(3), 034025 (2025). DOI
• Fabrication and Characterization of Low-Loss Al/Si/Al Parallel Plate Capacitors for Superconducting Quantum Information Applications — npj Quantum Information 11 (2025). DOI

PI: Prof. Andrea Young (Google Scholar) • Group Website

Investigates correlated electronic phases in van der Waals heterostructures, including superconductivity, magnetism, and quantum Hall physics in graphene-based systems using nanofabrication and low-temperature transport measurements.

Selected Recent Publications:

• Superconductivity in rhombohedral trilayer graphene — Nature 598, 434–438 (2021). DOI
• Isospin magnetism and spin-polarized superconductivity in Bernal bilayer graphene — Science 375(6582) (2022). DOI

PI: Prof. Mark Rodwell (Google Scholar) • Group Website

Develops InP heterojunction bipolar transistor (HBT) integrated circuits and transceiver modules operating at 100–300 GHz for next-generation sub-THz wireless communication systems with multi-Gbps data rates.

Selected Recent Publications:

• 100–300 GHz Wireless: Transistors, ICs, and Systems — IEEE Microwave Magazine (2025). DOI
• A 280 GHz InP HBT Direct-Conversion Receiver with 10.8 dB NF — IEEE RFIC Symposium (2023). DOI

PI: Prof. Kaustav Banerjee (Google Scholar) • Group Website

Pioneers 2D material-based transistor architectures for future CMOS scaling, including 3D transistors with 2D semiconductors, neuromorphic computing platforms using tunnel-FETs, and cryogenic CMOS for quantum computing.

Selected Recent Publications:

• Three-dimensional Transistors with Two-dimensional Semiconductors for Future CMOS Scaling — Nature Electronics (2024). DOI
• An Ultra Energy-efficient Hardware Platform for Neuromorphic Computing Enabled by 2D-TMD Tunnel-FETs — Nature Communications (2024). DOI

PI: Prof. Sriram Krishnamoorthy (Google Scholar) • Group Website

Advances ultra-wide-bandgap semiconductor device technology, particularly β-Ga₂O₃ power electronics including kilovolt-class MOSFETs and Schottky barrier diodes grown by MOCVD for high-voltage, high-efficiency power conversion.

Selected Recent Publications:

• Kilovolt-Class β-Ga₂O₃ MOSFETs on 1-inch Bulk Substrates — Applied Physics Letters (2024). DOI
• 2.1 kV (001)-β-Ga₂O₃ Vertical Schottky Barrier Diode with High-k Oxide Field Plate — Applied Physics Letters (2023). DOI

Directors: Prof. Steven DenBaars (Google Scholar) • Prof. Shuji Nakamura (Nobel Laureate, 2014 — Google Scholar) • SSLEEC Website

Leads development of III-nitride (InGaN/GaN) optoelectronic devices including micro-LEDs scaled to the single-micron regime for AR/VR displays, edge-emitting laser diodes, and advanced LED architectures with metasurface and distributed Bragg reflector integration.

Selected Recent Publications:

• High External Quantum Efficiency in Ultra-small Amber InGaN MicroLEDs Scaled to 1 μm — Applied Physics Letters (2024). DOI
• Metasurface Light-Emitting Diodes with Directional and Focused Emission — Nano Letters (2023). DOI

PI: Prof. Susanne Stemmer (Google Scholar) • Group Website

Investigates quantum materials including functional and correlated complex oxides and topological semimetals, with emphasis on thin-film epitaxial growth (MBE), quantum transport, and electronic structure engineering at heterostructure interfaces.

Selected Recent Publications:

• Two-Dimensional Topological Insulator State in Cadmium Arsenide Thin Films — Physical Review Letters 130, 046201 (2023). DOI
• Similarity in the Critical Thicknesses for Superconductivity and Ferroelectricity in Strained SrTiO₃ Films — Applied Physics Letters (2022). DOI

PI: Prof. Dmitri Strukov (Google Scholar) • Group Website

Develops novel memristive (resistive switching) devices and hybrid CMOS/memristor circuits for neuromorphic computing, in-memory computing, and hardware accelerators for neural networks and optimization problems.

Selected Recent Publications:

• Recent Advances and Future Prospects for Memristive Materials, Devices, and Systems — ACS Nano (2023). DOI
• 4K-Memristor Analog-Grade Passive Crossbar Circuit — Nature Communications 12 (2021). DOI

PI: Prof. Michael J. Gordon (Google Scholar) • Group Website

Works on plasma science and engineering (atmospheric and non-thermal plasmas), catalysis in molten metals for methane pyrolysis and hydrogen production, and nanoscale fabrication including colloidal lithography and micro-LED characterization.

Selected Recent Publications:

• AC Plasmas Directly Excited in Liquid-Phase Hydrocarbons for H₂ and Unsaturated C₂ Hydrocarbon Production — Journal of the American Chemical Society 147(1) (2025). DOI
• Dry Reforming of Methane Catalysed by Molten Metal Alloys — Nature Catalysis 3, 83–89 (2020). DOI

PI: Prof. Sumita Pennathur (Google Scholar) • Group Website

Studies electrokinetic transport in nanofluidic channels, ionic current rectification in bipolar nanochannels, and the design of nanofluidic diodes and biosensors, combining experimental micro/nanofabrication with computational modeling.

Selected Recent Publications:

• Coupling Charge-Regulated Interfacial Chemistry to Electrokinetic Ion Transport in Bipolar SiO₂–Al₂O₃ Nanofluidic Diodes — Advanced Materials Interfaces (2024). DOI
• Nanofluidic Diodes Based on Asymmetric Bio-Inspired Surface Coatings in Straight Glass Nanochannels — Faraday Discussions (2023). DOI

PI: Prof. Benjamin Mazin • INSPIRE-HEP Publications • Lab Publication List

Pioneers Microwave Kinetic Inductance Detectors (MKIDs) — superconducting photon-counting sensors with zero read noise that measure each photon's energy, arrival time, and position. Deploys MKID-based cameras (MEC, XKID) at major telescopes for direct imaging of exoplanets.

Selected Recent Publications:

• Characterization of Photon Arrival Timing Jitter in Microwave Kinetic Inductance Detector Arrays — Applied Physics Letters (2024). DOI
• Characterizing the Dark Count Rate of a Large-Format MKID Array — Optics Express 31(6), 10775 (2023). DOI