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Primeur weekly 2016-12-19

Crowd computing

Quake-detection app captured nearly 400 temblors worldwide ...

Quantum computing

Microsoft intensifies quantum cooperation with QuTech ...

Fast track control accelerates switching of quantum bits ...

Two electrons go on a quantum walk and end up in a qudit ...

Researchers discovered elusive half-quantum vortices in a superfluid ...

Focus on Europe

New e-IRGSP5 support project held its kick-off meeting in Barcelona ...

European Commission to organize eInfrastructure Proposers' Day on January 19, 2017 ...

ARM extends HPC offering with acquisition of software tools provider Allinea Software ...

Martin Kersten appointed ACM Fellow ...

PRACE Preparatory Access Type D expected for early 2017 ...

PRACE SHAPE 4th Call awards 4 new innovative European SME projects ...

Middleware

DDN collaborates with Synergy Solutions Management to offer video surveillance and HPC design, test and training at new Innovations Lab ...

GridGain Professional Edition 1.8 adds in-memory SQL Grid to industry-leading in-memory computing platform ...

Technique shrinks data sets for easier analysis ...

Hardware

Intersect360 Research to launch 9th Annual HPC Budget Map survey ...

DDN named a global leader in object storage by IDC ...

Mellanox 25G/100G Ethernet solutions enables Artificial Intelligence Speech Recognition Technology at iFLYTEK ...

Applications

BMW Group to start research with IBM Watson ...

Fincantieri selects IBM Cloud to meet growing international demand for more efficient shipbuilding ...

Better ranking for Big Data using seriation solution ...

Eye-popping view of CO2, critical step for carbon-cycle science ...

Supercomputer simulation reveals 2D glass can go infinitely soft ...

Extraordinary animation reveals ocean's role in El Niños ...

Pitt engineers receive $500,000 award from NASA to advance additive manufacturing ...

Rice and Baylor team sets new mark for 'deep learning' ...

Method enables machine learning from unwieldy data sets ...

Barrow identifies new genes responsible for ALS using IMB Watson Health ...

Global brain initiatives generate tsunami of neuroscience data ...

The Cloud

Q2 SaaS and PaaS Cloud revenues for Oralce up 81%, and up 89% in non-GAAP constant currency ...

Fast track control accelerates switching of quantum bits


Intricately shaped pulses of light pave a speedway for the accelerated dynamics of quantum particles, enabling faster switching of a quantum bit. Credit: Image courtesy Peter Allen.
15 Dec 2016 Chicagp - From laptops to cellphones, today's technology advances through the ever-increasing speed at which electric charges are directed through circuits. Similarly, speeding up control over quantum states in atomic and nanoscale systems could lead to leaps for the emerging field of quantum technology.

An international collaboration between physicists at the University of Chicago, Argonne National Laboratory, McGill University, and the University of Konstanz recently demonstrated a new framework for faster control of a quantum bit. First published online November 28, 2016, in Nature Physics , their experiments on a single electron in a diamond chip could create quantum devices that are less to prone to errors when operated at high speeds.

To understand their experiment, one can look to the ultimate setting for speed in classical dynamics: the oval racetracks at the Indianapolis or Daytona 500. To enable the racecars to navigate the turns at awesome speeds, the racetrack's pavement is "banked" by up to 30 degrees. A student in Newtonian mechanics could explain that this inward slope of the pavement allows the normal force provided by the road to help cancel the car's centrifugal acceleration, or its tendency to slide outward from the turn. The greater the speed, the greater the bank angle that is required.

"The dynamics of quantum particles behave analogously", stated Aashish Clerk, professor of theoretical physics at McGill University. "Although the equations of motion are different, to accurately change the state of a quantum particle at high speeds, you need to design the right track to impart the right forces."

Aashish Clerk, together with McGill postdoctoral fellows Alexandre Baksic and Hugo Ribeiro, formulated a new technique to enable faster quantum dynamics by deftly absorbing detrimental accelerations felt by the quantum particle. These accelerations, unless compensated, would divert the particle from its intended trajectory in the space of quantum states, similar to how the centrifugal acceleration deflects the racecar from its intended racing line on the track.

Through conversations with members of his own group and the Clerk group, David Awschalom, professor in spintronics and quantum information at the Institute for Molecular Engineering in the University of Chicago, realized that the new theory could be used to speed up the diamond-based quantum devices in his labs. However, just as constructing the banked speedways presented challenges in civil engineering, experimentally executing the control sequences envisioned by Aashish Clerk and co-workers presented ones in quantum engineering.

Building the quantum fast track required shining intricately-shaped, synchronized laser pulses on single electrons trapped at defects inside their diamond chips. This experimental feat was achieved by lead author Brian Zhou, working with Christopher Yale, F. Joseph Heremans, and Paul Jerger.

"We demonstrated that these new protocols could flip the state of a quantum bit, from 'off' to 'on', 300% faster than conventional methods", stated David Awschalom, also a senior scientist at Argonne National Laboratory. "Shaving every nanosecond from the operation time is essential to reduce the impact of quantum decoherence", he explained, referring to the process by which quantum information is lost to the environment

Professor Guido Burkard and Adrian Auer from the University of Konstanz joined the Awschalom and Clerk groups to examine the data from the experiments. A leading expert in diamond-based quantum systems, Guido Burkard remarked: "What is promising for translating these techniques beyond the laboratory is that they are effective even when the system is not perfectly isolated."

The researchers anticipate that their methods can be further applied for fast and accurate control over the physical motion of atoms or the transfer of quantum states between different systems, and convey benefits to quantum applications, such as secure communications and simulation of complex systems.

Funding was provided by the US Department of Energy, Office of Science, Office of Basic Energy Sciences, Materials Sciences and Engineering Division; Air Force Office of Scientific Research; National Science Foundation; and the German Research Foundation.
Source: University of Chicago

Back to Table of contents

Primeur weekly 2016-12-19

Crowd computing

Quake-detection app captured nearly 400 temblors worldwide ...

Quantum computing

Microsoft intensifies quantum cooperation with QuTech ...

Fast track control accelerates switching of quantum bits ...

Two electrons go on a quantum walk and end up in a qudit ...

Researchers discovered elusive half-quantum vortices in a superfluid ...

Focus on Europe

New e-IRGSP5 support project held its kick-off meeting in Barcelona ...

European Commission to organize eInfrastructure Proposers' Day on January 19, 2017 ...

ARM extends HPC offering with acquisition of software tools provider Allinea Software ...

Martin Kersten appointed ACM Fellow ...

PRACE Preparatory Access Type D expected for early 2017 ...

PRACE SHAPE 4th Call awards 4 new innovative European SME projects ...

Middleware

DDN collaborates with Synergy Solutions Management to offer video surveillance and HPC design, test and training at new Innovations Lab ...

GridGain Professional Edition 1.8 adds in-memory SQL Grid to industry-leading in-memory computing platform ...

Technique shrinks data sets for easier analysis ...

Hardware

Intersect360 Research to launch 9th Annual HPC Budget Map survey ...

DDN named a global leader in object storage by IDC ...

Mellanox 25G/100G Ethernet solutions enables Artificial Intelligence Speech Recognition Technology at iFLYTEK ...

Applications

BMW Group to start research with IBM Watson ...

Fincantieri selects IBM Cloud to meet growing international demand for more efficient shipbuilding ...

Better ranking for Big Data using seriation solution ...

Eye-popping view of CO2, critical step for carbon-cycle science ...

Supercomputer simulation reveals 2D glass can go infinitely soft ...

Extraordinary animation reveals ocean's role in El Niños ...

Pitt engineers receive $500,000 award from NASA to advance additive manufacturing ...

Rice and Baylor team sets new mark for 'deep learning' ...

Method enables machine learning from unwieldy data sets ...

Barrow identifies new genes responsible for ALS using IMB Watson Health ...

Global brain initiatives generate tsunami of neuroscience data ...

The Cloud

Q2 SaaS and PaaS Cloud revenues for Oralce up 81%, and up 89% in non-GAAP constant currency ...