. Energy News .




.
TIME AND SPACE
1 clock with 2 times
by Staff Writers
Vienna, Austria (SPX) Oct 21, 2011

According to general relativity, time flows differently at different positions due to the distortion of space-time by a nearby massive object. A single clock being in a superposition of two locations allows probing quantum interference effects in combination with general relativity. Credit: Quantum Optics, Quantum Nanophysics, Quantum Information; University of Vienna.

The unification of quantum mechanics and Einstein's general relativity is one of the most exciting and still open questions in modern physics. General relativity, the joint theory of gravity, space and time gives predictions that become clearly evident on a cosmic scale of stars and galaxies.

Quantum effects, on the other hand, are fragile and are typically observed on small scales, e.g. when considering single particles and atoms. That is why it is very hard to test the interplay between quantum mechanics and general relativity.

Now theoretical physicists led by Prof. Caslav Brukner at the University of Vienna propose a novel experiment which can probe the overlap of the two theories. The focus of the work is to measure the general relativistic notion of time on a quantum scale. The findings will be published this week in Nature Communications.

Time in general relativity
One of the counterintuitive predictions of Einstein's general relativity is that gravity distorts the flow of time. The theory predicts that clocks tick slower near a massive body and tick faster the further they are away from the mass.

This effect results in a so-called "twin paradox": if one twin moves out to live at a higher altitude, he will age faster than the other twin who remains on the ground. This effect has been precisely verified in classical experiments, but not in conjunction with quantum effects, which is the aim of the newly proposed experiment.

Quantum interference and complementarity
The Viennese group of researchers wants to exploit the extraordinary possibility that a single quantum particle can lose the classical property of having a well-defined position, or as phrased in quantum mechanical terms: it can be in a "superposition". This allows for wave-like effects, called interference, with a single particle.

However, if the position of the particle is measured, or even if it can in principle be known, this effect is lost. In other words, it is not possible to observe interference and simultaneously know the position of the particle. Such a connection between information and interference is an example of quantum complementarity - a principle proposed by Niels Bohr.

The experimental proposal now published in "Nature Communications" combines this principle with the "twin paradox" of general relativity.

Einstein's "twin paradox" for a quantum "only child"
The team at the University of Vienna considers a single clock (any particle with evolving internal degrees of freedom such as spin) which is brought in a superposition of two locations - one closer and one further away from the surface of the Earth.

According to general relativity, the clock ticks at different rates in the two locations, in the same way as the two twins would age differently. But since the time measured by the clock reveals the information on where the clock was located, the interference and the wave-nature of the clock is lost.

"It is the twin paradox for a quantum 'only child', and it requires general relativity as well as quantum mechanics. Such an interplay between the two theories has never been probed in experiments yet" - says Magdalena Zych, the lead author of the paper and member of the Vienna Doctoral Program CoQuS.

It is therefore the first proposal for an experiment that allows testing the genuine general relativistic notion of time in conjunction with quantum complementarity.

This work was supported by the Austrian Science Fund (FWF) projects: W1210, P19570-N16 and SFB-FOQUS, the Foundational Questions Institute (FQXi) and the European Commission Project Q-ESSENCE (No. 248095). Publication: "Quantum interferometric visibility as a witness of general relativistic proper time". M. Zych, F. Costa, I. Pikovski und C. Brukner. DOI: 10.1038/ncomms1498

Related Links
University of Vienna
Understanding Time and Space




.
.
Get Our Free Newsletters Via Email
...
Buy Advertising Editorial Enquiries






.

. Comment on this article via your Facebook, Yahoo, AOL, Hotmail login.

Share this article via these popular social media networks
del.icio.usdel.icio.us DiggDigg RedditReddit GoogleGoogle



TIME AND SPACE
Temporal cloaks adjust light's throttle to hide an event in time
Washington DC (SPX) Oct 14, 2011
Researchers from Cornell University in Ithaca, N.Y., have demonstrated for the first time that it's possible to cloak a singular event in time, creating what has been described as a "history editor." In a feat of Einstein-inspired physics, Moti Fridman and his colleagues sent a beam of light traveling down an optical fiber and through a pair of so-called "time lenses." Between these two le ... read more


TIME AND SPACE
California approves carbon cap-and-trade

China warns of winter power shortage

Links in the chain: Global carbon emissions and consumption

Serbia signs power plant deal with China

TIME AND SPACE
Electrochemistry controlled with a plasma electrode

Ukraine: Gas deal means Europe security

Using new technique, scientists uncover a delicate magnetic balance for superconductivity

Saudi royals face succession uncertainties

TIME AND SPACE
Vestas receives 99MW order for Texas wind-energy project

GE invests in Indian wind power

Euro Bank: Wind policy 'direction' needed

Natural Power US to act as Owner's Engineer on 2.1GW Wyoming wind farm

TIME AND SPACE
PHAT Energy Releases Sunpower Version Of The Successful PHATport

SunConnect Signs Agreement with Macy's To Develop Roof-Mounted PV System

US Solar Jobs Census Finds Solar Employment Soars As US Economy Lags

GE Energy and Inovateus Solar Partner on Solar Carport Charging Stations

TIME AND SPACE
Small fire stops Swedish nuclear reactor

Japanese village reconsiders nuclear power

TEPCO to raise $262 mln for nuclear payouts: report

Russia's Rosatom better on transparency: watchdog

TIME AND SPACE
Global Biofuels Market Value to Double by 2021

FuturaGene and Guangxi Academy of Sciences to Develop Sustainable Biofuel Processes

MixAlco Voted Most Transformative Technology of 2011

Codexis and Raizen to Develop First Generation Ethanol

TIME AND SPACE
Thousands of dreams to fly on Shenzhou 8

Living on Tiangong

China's first space lab module in good condition

Takeoff For Tiangong

TIME AND SPACE
Urban heat island effect is a small part of global warming

8.5% carbon cut needed by 2020 for Copenhagen goal: study

Biden denounces Somali guerrillas over famine

Expect a tough round of climate talks in Durban: S.Africa


.

The content herein, unless otherwise known to be public domain, are Copyright 1995-2011 - Space Media Network. AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA Portal Reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. Privacy Statement