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Displaying: 31 - 39 of 39 Results
Investigators
- Marko Loncar
- Qimin Quan
A new approach to NMR: High resolution spatial holographic encoding using traveling wave MR
This technology is for using a high field MR system to record interference patterns within biological phantoms combined with new spatial encoding methods to give contrast at resolution limits far exceeding traditional gradient-based encoding…
Investigators
- Andrew Kiruluta
Investigators
- Robert Wood
- Michael Karpelson
- Gu-Yeon Wei
Scalable room temperature solid-state quantum information processor
A team of Harvard, CalTech and Max-Planck-Institute physicists led by Mikhail D. Lukin has proposed an architecture for a scalable, solid-state quantum information processor capable of operating at or near room temperature. The architecture is…
Investigators
- Mikhail Lukin
- Norman Yao
- Alexey Gorshkov
- Peter Maurer
- Geza Giedke
- Juan Cirac
- Liang Jiang
Investigators
- Conor Walsh
- Samuel Kesner
- Joshua Gafford
- Zivthan Dubrovsky
- Benjamin Goldberg
- Michael Karpelson
- Kathleen O'Donnell
- Robert Wood
- Michael Smith
A novel color filter array design scheme significantly reduces hardware complexity
In digital imaging applications, data are typically obtained via a spatial sub-sampling procedure implemented as a color filter array (CFA). CFA assigns a separate primary color to each pixel by placing a filter of that color over the pixel. The…
Investigators
- Patrick Wolfe
- Keigo Hirakawa
Slowing down light for enhanced detection and measurement of biomolecules
The photonic crystal device is a novel method for localizing and trapping light, where the light can be utilized for a wide-variety of chemical, biological, and optical applications. Traditional chemical and biological optical sensors are limited by…
Investigators
- Frank Vollmer
- Juraj Topolancik
Silicon-based photodiodes for enhanced infrared detection, quick response and low cost
The technology offered here is for the creation of an “impurity enhanced” silicon material with unique optelectric properties. The material is created by employing an ion-implantation technique using a nanosecond laser to melt the basis of single…
Investigators
- Michael Aziz
- Daniel Recht
- Aurore Said
- Jeffery Warrender
High-flux, low-power diamond nanowire single-photon source arrays: an enabling material for optical and quantum computing and cryptography
The novel approach taken by the Harvard researchers was to apply top-down nanofabrication techniques to define large arrays of vertically oriented nanowire antennas in a single-crystal diamond substrate. Briefly, structures were made from a…
Investigators
- Marko Loncar
- Thomas Babinec
- Birgit Yao
- Mughees Khan
- Yinan Zhang
- Philip Hemmer