Futurehead.com

  • Decrease font size
  • Default font size
  • Increase font size
Quantum information motion control is now improved
Wednesday, 04 April 2012 16:20

ScienceDaily (Apr. 3, 2012) — Physicists have recently devised a new method for handling the effect of the interplay between vibrations and electrons on electronic transport. Their paper is about to be published in The European Physical Journal B. This study, led by scientists from Zhejiang University, Hangzhou, China, and the Centre for Computational Science and Engineering at the National University of Singapore, could have implications for quantum computers due to improvements in the transport of discrete amounts of information, known as qubits, that are encoded in electrons.

The authors created an electron transport model to assess electrons' current fluctuations when they are subjected to quantized modes of vibration, also known as phonons. In the model, phonons are induced by a nanomechanical resonator. To better monitor electron transport, it is coupled to a system that was chosen for its ability to confine one or several electrons, called double quantum dot (DQD). Unlike previous studies, this work imposed arbitrary strong coupling regimes between electrons in the DQD and the phonons produced by the resonator.

The authors successfully controlled the excitations of the phonons without impacting the transport of quantum information. To do so, they decoupled the electron-phonon interaction by the so-called coherent phonon states method, which is based on reaching resonance modes of phonons. They have shown that when the energy excess between the two quantum dots of the DQD system is sufficient to create an integer number of phonons, electrons can reach resonance and tunnel from one quantum dot to the other. In strong electron-phonon coupling regimes, multi-phonon excitations can thus enhance the electron transport.

As the electron-phonon coupling becomes even stronger, the phenomenon of phonon scattering represses electron transport and confines the electrons. The fluctuations of electron current could therefore be controlled by tuning the electron-phonon coupling, which makes it a good quantum switch to control the transport of information in quantum computers.


Story Source:

The above story is reprinted from materials provided by Springer, via AlphaGalileo.

Note: Materials may be edited for content and length. For further information, please contact the source cited above.


Journal Reference:

  1. C. Wang, J. Ren, B. W. Li, Q. H. Chen. Quantum transport of double quantum dots coupled to an oscillator in arbitrary strong coupling regime. The European Physical Journal B, 2012; 85 (3) DOI: 10.1140/epjb/e2012-30027-1

Note: If no author is given, the source is cited instead.

Disclaimer: Views expressed in this article do not necessarily reflect those of ScienceDaily or its staff.

This entry passed through the Full-Text RSS service — if this is your content and you're reading it on someone else's site, please read the FAQ at fivefilters.org/content-only/faq.php#publishers. Five Filters recommends: Donate to Wikileaks.


Read Full Article
 
1 Vote

0 Comments

Add Comment


     

    The Futurehead poll

    How far would you go to modify yourself using the latest medical technology?
     

    Futurehead Recommends

    In Futuredise Store

    Molecular T-shirt
    FutureHood Hoodie Top

    Technology Quotes of the Day

    nothing found

    Brain Quotes of the Day

    nothing found

    Evolution Quotes of the Day

    nothing found

    Diffusion Science Radio

    FundScience, Albatross, LoVid »»
    Megaphones and Microfluidics »»
    Semaphore and legal Biohacking »»
    Fact or Fiction Implants »»