Yale Bulletin and Calendar

September 17, 2004|Volume 33, Number 3



BULLETIN HOME

VISITING ON CAMPUS

CALENDAR OF EVENTS

IN THE NEWS

BULLETIN BOARD

CLASSIFIED ADS


SEARCH ARCHIVES

DEADLINES

DOWNLOAD FORMS

BULLETIN STAFF


PUBLIC AFFAIRS HOME

NEWS RELEASES

E-MAIL US


YALE HOME PAGE


Yale scientists bring quantum
optics to a microchip

A report in the journal Nature describes the first experiment in which a single photon is coherently coupled to a single superconducting qubit (quantum bit or "artificial atom").

This represents a new paradigm in which quantum optics experiments can be performed in a micro-chip electrical circuit using microwaves instead of visible photons and lasers. The work is a collaboration of the laboratory of Robert Schoelkopf and the theory group of Steven Girvin, both professors in the Departments of Applied Physics and Physics.

The Yale researchers have constructed a miniaturized superconducting cavity whose volume is more than one million times smaller than the cavities used in corresponding current atomic physics experiments. The microwave photon is, therefore, "trapped," allowing it to be repeatedly absorbed and re-emitted by the "atom" many times before it escapes the cavity. The "atom" is a superconducting circuit element containing approximately one billion aluminum atoms acting in concert.

Because of the tiny cavity volume and large "atom'" size, the photon and "atom" are very strongly coupled together and energy can be rapidly exchanged between them. Under the peculiar rules of quantum mechanics, the state of the system becomes a coherent superposition of two simultaneous possibilities: The energy is either an excitation of the atom, or it is a photon. It is this superposition that was observed in the Yale experiment.

In addition to allowing fundamental tests of quantum mechanics and quantum optics in a completely new format, this new system has many desirable features for a quantum computer, say the researchers. In a quantum computer the bits of information are replaced by qubits (e.g. an atom) which, paradoxically, can harness quantum uncertainty to vastly speed up certain types of calculations. The ability to couple qubits to photons, demonstrated by the Yale group, could allow qubits on a chip to be wired together via a "quantum information bus" carrying single photons.

Other authors on the paper include Andreas Wallraff, David Schuster, Alexandre Blais, Luigi Frunzio, Ren-Shou Huang, Johannes Majer and Sameer Kumar. This work was supported in part by the National Security Agency and Advanced Research and Development Activity under the Army Research Office, the National Science Foundation, the David and Lucile Packard Foundation, the W. M. Keck Foundation, and the Natural Science and Engineering Research Council of Canada.

-- By Janet Rettig Emanuel


T H I SW E E K ' SS T O R I E S

Yale employee's new home is the result of . . .

Neurologist Lo wins Presidential Early Career Award

Exhibit explore mysteries of the giant squid

Series will introduce new World Fellows to Yale community

Levin reports improvements in U.S. visa procedures

Grant funds study exploring the link between . . .

Yale professor's watercolors featured in JE exhibit

Bruce Carmichael is appointed an assistant provost

In Focus: Department of Surgery

Renowned writer Norman Mailer to make campus appearance

Scholars will examine the iconic career of pop star . . .

Life is portrayed as a messy affair in Rep's 'Clean House'

Fast-paced opera 'thriller' will make its American debut at Yale

Yale to give matching grant of $100,000 . . .

2003-2004 Yale United Way Donors

Artist's paintings explore common human bonds

Conference to celebrate birth of the 'founder of humanism'

Researchers find that the media's science reporting is politically biased

Grants will support two ongoing preservation projects at Yale Library

President appoints search committee for next dean of the School of Nursing

Study: Drug aprotinin reduces risk of stroke . . .

Yale scientists bring quantum optics to a microchip

IN MEMORIAM

Campus Notes

Buckley Amendment


Bulletin Home|Visiting on Campus|Calendar of Events|In the News

Bulletin Board|Classified Ads|Search Archives|Deadlines

Bulletin Staff|Public Affairs|News Releases| E-Mail Us|Yale Home