Photonics

MIT Microphotonics Center Principal Research Scientist Anuradha Agarwal

Chemical sensing on a chip

Anuradha Agarwal’s miniaturized infrared detection technology research offers the promise of inexpensive sensor networks for many applications.

April 8, 2016

Participants in the Monterrey Tec program visit with José Antonio Fernández Carvajal, chairman of the board of trustees at Tecnológico de Monterrey.

Monterrey Tec researchers exhilarated by nanotech challenges

The Tec de Monterrey and MIT Program fosters exchanges in nanotechnology and nanoscience, with the goal of helping the Tec to become a research university.

March 29, 2016

Researchers used the spin of light to guide the flow of optical information. Shining right-circularly polarized light on nanoribbons made of special 2-D materials enables light to flow forward on one edge and backward on the other edge. Changing the polarization of the light causes the guided modes to reverse directions.

New way to control particle motions on 2-D materials

Study points the way to new photonic devices with one-way traffic lanes.

March 21, 2016

For both his master’s and his doctoral theses, Michael Watts (pictured) developed a photonic circuit that could align the polarizations of light traveling through an optical chip.

Local boy makes good

Michael Watts took two decades to make the 20-mile trip from suburban Hingham to tenure at MIT.

January 19, 2016

A proof-of-concept device built by MIT researchers demonstrates the principle of a two-stage process to make incandescent bulbs more efficient. This device already achieves efficiency comparable to some compact fluorescent and LED bulbs.

A nanophotonic comeback for incandescent bulbs?

Researchers combine the warm look of traditional light bulbs with 21st-century energy efficiency.

January 11, 2016

Clearing the way for Floquet-Bloch states

Team demonstrates pure quantum-mechanical mixture of electrons and photons in the solid topological insulator bismuth selenide.

January 4, 2016

Researchers have produced a working optoelectronic chip that computes electronically but uses light to move information. The chip has 850 optical components and 70 million transistors, which, while significantly less than the billion-odd transistors of a typical microprocessor, is enough to demonstrate all the functionality that a commercial optical chip would require.

Optoelectronic microprocessors built using existing chip manufacturing

High-performance prototype means chipmakers could now start building optoelectronic chips.

December 23, 2015

Silicon photonics meets the foundry

Lionel Kimerling, Rajeev Ram, and other MIT researchers explore practical ways to bring optical interconnection toward and directly onto chips.

September 8, 2015

Associate Professor Michael R. Watts (left) and Professor Lionel C. Kimerling (right).

Consortium including MIT awarded $110M national grant to promote photonics manufacturing

Partnership of government, industry, and academia will pursue integration of optical devices with electronics.

July 27, 2015

Researchers have shown that a DC voltage applied to layers of graphene and boron nitride can be used to control light emission from a nearby atom. In these figures, graphene is represented by a maroon-colored top layer; boron nitride is represented by yellow-green lattices below the graphene; and the atom is represented by a grey circle. An applied DC voltage can drastically modify the graphene la...

Taking control of light emission

Researchers find a way of tuning light waves by pairing two exotic 2-D materials.

May 20, 2015

Electrons corralled using new quantum tool

“Whispering gallery” effect confines electrons, could provide basis for new electron-optics devices.

May 7, 2015

Bendable glass devices

MIT Assistant Professor Juejun Hu melds fundamental materials science and new device designs to enable flexible photonics and other applications.

April 24, 2015

This image illustrates the entanglement of a large number of atoms. The atoms, shown in purple, are shown mutually entangled with one another.

Thousands of atoms entangled with a single photon

Result could make atomic clocks more accurate.

March 25, 2015

Materials Processing Center marks 35 years

Service to faculty, collaboration with industry are hallmarks of campus-based Materials Processing Center at MIT.

March 6, 2015

Keith Doyle receives 2015 SPIE Technology Achievement Award

March 3, 2015

MIT News | Massachusetts Institute of Technology

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