Displaying: 1 - 10 of 44 Results

Polarization Multi-Shot Camera Systems with Metasurfaces

Multi-shot camera systems have exciting applications in depth sensing, wavefront sensing, and light field imaging. There is interest in developing systems that capture multiple coded measurements in a single exposure to improve temporal…

Investigators

  • Federico Capasso

Unlocking Long-Range Entangled Quantum States

Long-range entangled quantum states are a key part of realizing the full potential of quantum computing technology; they provide the foundation for error correction, enable universal quantum computation, and enhance quantum algorithms and metrology,…

Investigators

  • Ashvin Vishwanath

Quantum Network-Based Voting: Enhancing Election Integrity and Efficiency

Voting security is crucial for preventing fraud, maintaining public trust, and is a cornerstone of democratic governance. The development of large-scale quantum computers opens the possibility of efficiently solving advanced voting protocols and…

Investigators

  • Mikhail D. Lukin

Scalable, High-Efficiency, Single-Photon Source for Quantum Networking

Quantum information processing holds the promise of enhanced security, advanced information processing, long-distance communication capabilities, and improved data privacy for the future of networking and communications technologies. Efficient,…

Investigators

  • Mikhail D. Lukin

Nano-fertilizer for precision agrichemical delivery and micronutrient enhancement

Researchers from Philip Demokritou's lab at the Harvard T. H. Chan School of Public Health have developed core-shell nanoparticles using coaxial electrospraying for smart agrichemical delivery. The multiple stimuli-responsive nanostructures are…

Investigators

  • Philip Demokritou

Unlocking High n+ Carrier Concentrations in Germanium for Advanced Devices

Germanium (Ge) holds great promise for the next generation of silicon CMOS-compatible devices due to its exceptional properties, including high electron and hole mobility and the ability to be grown directly on silicon substrates. However, a…

Investigators

  • Eric Mazur
  • Michael J. Aziz

Singularity engineering using metasurfaces

Researchers in the lab of Federico Capasso have developed new techniques using metasurfaces to control points of darkness in electromagnetic fields. These dark regions, known as optical singularities, have previously been challenging to manipulate.…

Investigators

  • Federico Capasso
  • Soon Wei Daniel Lim
  • Joon-Suh Park
  • Maryna Leonidivna Meretska
  • Ahmed H. Dorrah

Low cost, efficient, intracellular cargo delivery

Researchers from Eric Mazur’s lab at Harvard have developed a new intracellular delivery technique using laser-activated thermoplasmonic substrates that can deliver cargos of varying sizes to cells with high efficiency, viability, and throughput.…

Investigators

  • Eric Mazur

Sunlight-induced catalysis for biofuel and electricity generation

A new graphene-based material architecture for facilitating catalysis has been developed in the lab of Professor Lene Hau. The hybrid biological and nano-engineered structure acts as an artificial cell-membrane to control electron and proton…

Investigators

  • Lene V. Hau

Biomimetic heart valve replacement

Researchers from the Disease Biology Group at Harvard have developed tissue-engineered replacement heart valves with a composition, multiscale architecture, and mechanical properties that mimic native valves. The researchers utilize a novel “jet…

Investigators

  • Kevin Kit Parker

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