Better control of building blocks for quantum computer

They are now able to manipulate these building blocks (qubits) with electrical rather than magnetic fields, as has been the common practice up till now. They have also been able to embed these qubits into semiconductor nanowires. The scientists’ findings have been published in the current issue of the science journal Nature (23 December).

Spin
A qubit is the building block of a possible, future quantum computer, which would far outstrip current computers in terms of speed. One way to make a qubit is to trap a single electron in semiconductor material. A qubit can, just like a normal computer bit, adopt the states '0' and '1'. This is achieved by using the spin of an electron, which is generated by spinning the electron on its axis. The electron can spin in two directions (representing the '0' state and the '1' state).
Electrical instead of magnetic
Until now, the spin of an electron has been controlled by magnetic fields. However, these field are extremely difficult to generate on a chip. The electron spin in the qubits that are currently being generated by the Dutch scientists can be controlled by a charge or an electric field, rather than by magnetic fields. This form of control has major advantages, as Leo Kouwenhoven, scientist at the Kavli Institute of Nanoscience at TU Delft, points out: “These spin-orbit qubits combine the best of both worlds. They employ the advantages of both electronic control and information storage in the electron spin.”
Nanowires
There is another important new development in the Dutch research: the scientists have been able to embed the qubits (two) into nanowires made of a semiconductor material (indium arsenide). These wires are of the order of nanometres in diameter and micrometres in length. Kouwenhoven: “These nanowires are being increasingly used as convenient building blocks in nanoelectronics. Nanowires are an excellent platform for quantum information processing, among other applications.”
More information:
Reference:
Nadj-Perge, S, S.M. Frolov, E.P.A.M. Bakkers and L.P. Kouwenhoven (2010) Spin-Orbit qubit in a semiconductor nanowire. Nature 468, 1084 – 1087.
Contact:
Leo Kouwenhoven, full professor Quantum Transport, Kavli Institute of Nanoscience, TU Delft. Tel: +31 (0)15 278 6064, e-mail: l.p.kouwenhoven@tudelft.nl

Ms Ineke Boneschansker, Science Information Officer TU Delft. Tel: +31 (0) 15 278 8499, e-mail: i.boneschansker@tudelft.nl

All latest news from the category: Information Technology

Here you can find a summary of innovations in the fields of information and data processing and up-to-date developments on IT equipment and hardware.

This area covers topics such as IT services, IT architectures, IT management and telecommunications.

Back to home

Comments (0)

Write a comment

Newest articles

EEG ad tDCS chould serve as the basis of therapeutic strategies to combat newrological disorders. Image Credit: Institute of Science Tokyo

Using Electroencephalography to Improve Language Disorder Treatments

Researchers work towards an inexpensive and portable solution for treating aphasia  Electroencephalography (EEG) may offer a more accessible alternative to functional magnetic resonance imaging (fMRI) for guiding transcranial direct current…

The BioSCape team is poctured with NASA and South African aircraft. Image Credit: Jeremey Shelton/Fishwater Films

Measuring Life on Earth from Space: A Global Research Project

Measurements and data collected from space can be used to better understand life on Earth. An ambitious, multinational research project funded by NASA and co-led by UC Merced civil and…

NEJM study finds patients with blockages in medium-sized vessels in the brain who had endovascular treatment did not do any better and did not see any improvement compared to patients who had the standard of care. Dr. Michael Hill, MD, Dr. Mayank Goyal, MD, PhD (right). Image Credit: Riley Brandt, University of Calgary

Best Approach for Stroke in Medium-Sized Blood Vessels Identified

Calgary’s Stroke Program advancing science to improve care, treatment and outcomes for patients  University of Calgary’s Hotchkiss Brain Institute researchers with the Calgary Stroke Program at Foothills Medical Centre revolutionized…