(Press-News.org) "The nation that controls magnetism will control the universe," famed fictional detective Dick Tracy predicted back in 1935. Probably an overstatement, but there's little doubt the nation that leads the development of advanced magnetoelectronic or "spintronic" devices is going to have a serious leg-up on its Information Age competition. A smaller, faster and cheaper way to store and transfer information is the spintronic grand prize and a key to winning this prize is understanding and controlling a multiferroic property known as "spontaneous magnetization."
Now, researchers with the U.S. Department of Energy (DOE) Lawrence Berkeley National Laboratory (Berkeley Lab) have been able to enhance spontaneous magnetization in special versions of the popular multiferroic material bismuth ferrite. What's more, they can turn this magnetization "on/off" through the application of an external electric field, a critical ability for the advancement of spintronic technology.
"Taking a novel approach, we've created a new magnetic state in bismuth ferrite along with the ability to electrically control this magnetism at room temperature," says Ramamoorthy Ramesh, a materials scientist with Berkeley Lab's Materials Sciences Division, who led this research. "An enhanced magnetization arises in the rhombohedral phases of our bismuth ferrite self-assembled nanostructures. This magnetization is strain-confined between the tetragonal phases of the material and can be erased by the application of an electric field. The magnetization is restored when the polarity of the electric field is reversed."
Ramesh, who also holds appointments with the University of California Berkeley's Department of Materials Science and Engineering and the Department of Physics, is the corresponding author of a paper in the journal Nature Communications titled "Electrically Controllable Spontaneous Magnetism in Nanoscale Mixed Phase Multiferroics."
Magnetoelectronic or spintronic devices store data through electron spin and its associated magnetic moment rather than the electron charge-based storage of today's electronic devices. Spin, a quantum mechanical property arising from the magnetic moment of a spinning electron, carries a directional value of either "up" or "down" that can be used to encode data in the 0s and 1s of the binary system. In addition to the size, speed and capacity advantages over electronic devices, the data storage in spintronic devices does disappear when the electric current stops.
Multiferroics are prime candidate materials for future spintronic devices because they can simultaneously exhibit both electric and magnetic properties. Bismuth ferrite, a multiferroic comprised of bismuth, iron and oxygen (BFO), has been thrust into the spintronic spotlight thanks in part to a surprising discovery in 2009 by Ramesh and his research group. They found that although bismuth ferrite is an insulator, running through its crystals are two-dimensional sheets called "domain walls" that conduct electricity. Ramesh and his group subsequently found that application of a large epitaxial strain (compression in the direction of a material's crystal planes) changes the bismuth ferrite crystal structure from its natural rhombohedral phase into a tetragonal phase. Partial relaxation of the strain creates a stable nanoscale mixture of the rhombohedral and tetragonal phases.
In this new research, Ramesh and his group have deployed epitaxial strain to create bismuth ferrite films that are a mix of highly distorted rhombohedral and tetragonal phases, in which the rhombohedral phases are mechanically confined by regions of the tetragonal phases. The magnetic moments that spontaneously arise in these special films occur within the distorted rhombohedral phase rather than at the phase interfaces and are significantly stronger than the magnetic moment that occurs in conventional bismuth ferrite.
"Normal bismuth ferrite films typically show a spontaneous magnetization of 6 to 8 electromagnetic units/cubic centimeter, which is too small for applications in a real device," says Qing (Helen) He, who was the lead author on the Nature Communications paper. "By setting our bismuth ferrite films in this special mixed phase state, we can enhance the spontaneous magnetization to approximately 30 to 40 electromagnetic units/cubic centimeter, which is large enough to be used in real devices."
Ramesh, He and their co-authors discovered that the enhanced spontaneous magnetization in their special bismuth ferrite films can be controlled through the use of an external electric field without any noticeable current passing through the film. The ability to turn the magnetization on/off in these films opens the door to their use in spintronic devices as the on/off states can serve as the 1 and 0 states of data storage. That these on/off states can be achieved without an electric current is a significant added advantage.
"In the typical magnetic memory device, the magnetic state of the material is set by an external magnetic field that is generated from the current flowing through an electromagnet," says He. "Current flow needs to be driven with a lot of power and at the same time generates waste heat. Therefore, using an electric field instead of a current to control the magnetization saves energy."
The discovery that the magnetization of these special bismuth ferrite films can be controlled with an electric field was largely made possible by the use of PhotoEmission Electron Microscopy (PEEM) at Berkeley Lab's Advanced Light Source (ALS), a DOE Office of Science national user facility for synchrotron radiation. The PEEM3 microscope at ALS beamline 11.0.1 is one of the world's best instruments for studying ferromagnetic and antiferromagnetic nanoscale domains.
INFORMATION:
In addition to Ramesh and He, other co-authors of the paper
"Electrically Controllable Spontaneous Magnetism in Nanoscale Mixed Phase Multiferroics" were Ying-Hao Chu, John Heron, Seung-Yeul Yang, Wen-I Laing, Chang-Yang Kuo, Hong-Ji Lin, Pu Yu, Chen-Wei Liang, Robert Zeches, Wei-Chen Kuo, Jenh-Yih Juang, Chien-Te Chen, Elke Arenholz and Andreas Scholl.
This research was primarily supported by the DOE Office of Science.
Lawrence Berkeley National Laboratory is a U.S. Department of Energy (DOE) national laboratory managed by the University of California for the DOE Office of Science. Berkeley Lab provides solutions to the world's most urgent scientific challenges including sustainable energy, climate change, human health, and a better understanding of matter and force in the universe. It is a world leader in improving our lives through team science, advanced computing, and innovative technology. Visit our Website at www.lbl.gov
Enhancing the magnetism
Berkeley researchers find enhanced and controllable magnetization in unique bismuth ferrite films
2011-03-19
ELSE PRESS RELEASES FROM THIS DATE:
Michigan Case Tests The Bounds of Internet Privacy Between Spouses
2011-03-19
If you think your spouse is cheating, you may want to think twice before checking his or her personal e-mail for evidence of the infidelity. In an upcoming Michigan case, a husband from Rochester Hills was charged with a felony punishable by up to five years in prison for doing just that.
In 2008, Leon Walker suspected that his soon to be ex-wife, Clara Walker, was having an affair with one of her former husbands. Using his wife's password, Walker logged on to a laptop computer they shared and checked her personal e-mail account where he found communications confirming ...
Economics and evolution help scientists identify new strategy to control antibiotic resistance
2011-03-19
A team of scientists from the University of Oxford, U.K. have taken lessons from Adam Smith and Charles Darwin to devise a new strategy that could one day slow, possibly even prevent, the spread of drug-resistant bacteria. In a new research report published in the March 2011 issue of GENETICS (http://www.genetics.org), the scientists show that bacterial gene mutations that lead to drug resistance come at a biological cost not borne by nonresistant strains. They speculate that by altering the bacterial environment in such a way to make these costs too great to bear, drug-resistant ...
Protecting Your Privacy During Divorce
2011-03-19
Man Facing Prison Time for Reading Wife's Email
Have you checked your spouse's e-mail account lately? If you have, you may have committed a crime, or at least you may have if you live in Michigan.
In a case generating national attention, Michigan resident Leon Walker was charged under the state's anti-hacking law for checking his wife's email without permission, a crime normally reserved for charging those who have committed identity theft or stolen trade secrets. If convicted, Walker may be sentenced up to five years in prison.
Walker and his wife were in the ...
How to help heal an injured joint
2011-03-19
There's nothing like the sheer delight of sun and snow on a skiing trip. But a momentary lapse of concentration can have nasty consequences. Taking a tumble on the slopes often causes injuries – most commonly to the knee. Weeks can go by before knees regain their full function, and patients are obliged to re-learn how to walk. The time it takes for the knee to heal is directly related to how well it reacts to the chosen treatment. But how is an orthopedic doctor to evaluate the healing process? And how are patients to know what progress they are making? Currently, doctors ...
Terminolgy matters in parents' willingness to enroll their children in research
2011-03-19
(Garrison, NY) When presented with different terms to describe a clinical trial, parents were far more likely to consent to enroll their child if it was called a "research study" than if it was called a "medical experiment" or a "research project," in large part because they perceived the former as safer, even though that was not necessarily the case, according to a report in IRB: Ethics & Human Research.
Terms such as these are typically used interchangeably in informed consent forms and by researchers describing trials to potential participants and their parents, on ...
Kidney cancer patients who have partial organ removal are healthier
2011-03-19
(Edmonton) Patients with kidney cancer who had their entire organ removed were more likely to have more renal complications and poorer health after surgery, compared to those who had only part of their kidney removed, a study has shown.
Ronald Moore, a professor in the Department of Surgery, a senior scholar funded by Alberta Innovates – Health Solutions, holder of the Mr. Lube Chair in Uro-Oncology and a practising surgeon, studied 1,151 kidney cancer cases in Alberta, with his colleagues Scott Klarenbach, an Alberta Innovates – Health Solutions investigator and associate ...
Bankruptcy Exemptions in Arizona: Learn About Protected Assets
2011-03-19
The fundamental difference between Chapter 7 bankruptcy and Chapter 13 bankruptcy involves the concepts of liquidation and reorganization of debt. Under Chapter 7, most unsecured debt is eliminated by "liquidating" assets of the applicant to provide funds to those creditors. But one of the myths about bankruptcy is the fear that Chapter 7 can therefore cause you to lose your car, home and other essential property.
In fact, the bankruptcy code defines a set of bankruptcy exemptions that allow the individual debtor to protect certain property from creditors' claims. Arizona ...
Japanese tsunami underscores need for elder disaster preparedness
2011-03-19
The oldest segment of Japan's population will likely be the hardest hit as a result of the recent earthquake and subsequent tsunami, based on data from previous catastrophic events. Approximately 23 percent of Japanese citizens currently are age 65 and above.
"Japan's population — with the highest proportion of older people in any country — gives us an indicator of where the world as a whole is headed," said James Appleby, RPh, MPH, executive director of The Gerontological Society of America. "The significance of this demographic shift and the severity of the tsunami's ...
Is space like a chessboard?
2011-03-19
Physicists at UCLA set out to design a better transistor and ended up discovering a new way to think about the structure of space.
Space is usually considered infinitely divisible — given any two positions, there is always a position halfway between. But in a recent study aimed at developing ultra-fast transistors using graphene, researchers from the UCLA Department of Physics and Astronomy and the California NanoSystems Institute show that dividing space into discrete locations, like a chessboard, may explain how point-like electrons, which have no finite radius, ...
Radiation risks to health: A joint statement from leading scientific experts
2011-03-19
Chevy Chase, MD (March 18, 2011)--The growing concern surrounding the release of radiation from an earthquake and tsunami-stricken nuclear complex in Japan has raised fears of radiation exposure to populations in North America from the potential plume of radioactivity crossing the Pacific Ocean. To help Americans understand their radiation-related health risks, the American Association of Clinical Endocrinologists (AACE), the American Thyroid Association (ATA), The Endocrine Society and the Society of Nuclear Medicine (SNM) issued a joint statement (http://www.endo-society.org/advocacy/policy/upload/Joint-Statement-on-Radiation-Risks-to-Health.pdf).
The ...
LAST 30 PRESS RELEASES:
NASA’s Parker Solar Probe makes history with closest pass to Sun
Are we ready for the ethical challenges of AI and robots?
Nanotechnology: Light enables an "impossibile" molecular fit
Estimated vaccine effectiveness for pediatric patients with severe influenza
Changes to the US preventive services task force screening guidelines and incidence of breast cancer
Urgent action needed to protect the Parma wallaby
Societal inequality linked to reduced brain health in aging and dementia
Singles differ in personality traits and life satisfaction compared to partnered people
President Biden signs bipartisan HEARTS Act into law
Advanced DNA storage: Cheng Zhang and Long Qian’s team introduce epi-bit method in Nature
New hope for male infertility: PKU researchers discover key mechanism in Klinefelter syndrome
Room-temperature non-volatile optical manipulation of polar order in a charge density wave
Coupled decline in ocean pH and carbonate saturation during the Palaeocene–Eocene Thermal Maximum
Unlocking the Future of Superconductors in non-van-der Waals 2D Polymers
Starlight to sight: Breakthrough in short-wave infrared detection
Land use changes and China’s carbon sequestration potential
PKU scientists reveals phenological divergence between plants and animals under climate change
Aerobic exercise and weight loss in adults
Persistent short sleep duration from pregnancy to 2 to 7 years after delivery and metabolic health
Kidney function decline after COVID-19 infection
Investigation uncovers poor quality of dental coverage under Medicare Advantage
Cooking sulfur-containing vegetables can promote the formation of trans-fatty acids
How do monkeys recognize snakes so fast?
Revolutionizing stent surgery for cardiovascular diseases with laser patterning technology
Fish-friendly dentistry: New method makes oral research non-lethal
Call for papers: 14th Asia-Pacific Conference on Transportation and the Environment (APTE 2025)
A novel disturbance rejection optimal guidance method for enhancing precision landing performance of reusable rockets
New scan method unveils lung function secrets
Searching for hidden medieval stories from the island of the Sagas
Breakthrough study reveals bumetanide treatment restores early social communication in fragile X syndrome mouse model
[Press-News.org] Enhancing the magnetismBerkeley researchers find enhanced and controllable magnetization in unique bismuth ferrite films