(Press-News.org) Light is an excellent carrier of information used not only for classical communication technologies but also increasingly for quantum applications such as quantum networking and computing. However, processing light signals is far more complex, compared to working with common electronic signals.
An international team of researchers including Dr. Olga Kocharovskaya, a distinguished professor in the Department of Physics and Astronomy at Texas A&M University, has demonstrated a novel way of storing and releasing X-ray pulses at the single photon level — a concept first proposed in earlier theoretical work by Kocharovskaya’s group — that could apply to future X-ray quantum technologies.
The team’s work, led by Helmholtz Institute Jena Professor Dr. Ralf Röhlsberger and performed using the synchrotron sources PETRA III at the German Electron Synchroton (DESY) in Hamburg and the European Synchrotron Radiation Facility in France, resulted in the first realization of quantum memory in the hard X-ray range. Their findings are published in the journal Science Advances.
“Quantum memory is an indispensable element of the quantum network, providing storage and retrieval of quantum information,” said Kocharovskaya, a member of the Texas A&M Institute for Quantum Science and Engineering. “Photons are fast and robust carriers of quantum information, but it is difficult to hold them stationary in case this information is needed at a later time. A convenient way of doing this is by imprinting this information into a quasi-stationary medium in the form of polarization or spin wave with a long coherence time and releasing it back via re-emission of the original photons.”
Kocharovskaya says several protocols for quantum memories have been established but are limited to optical photons and atomic ensembles. Using nuclear rather than atomic ensembles, she adds, delivers much longer memory times achievable even at high solid-state densities and room temperature. Those longer memory times are a direct result of the lower sensitivity of the nuclear transitions to perturbations by external fields, thanks to the small nuclei sizes. In combination with a tight focusing of the high-frequency photons, such approaches could lead to the development of long-lived broad-band compact solid-state quantum memories.
“The direct extension of the optical/atomic to X-ray/nuclear protocols proves to be challenging or impossible,” explains Dr. Xiwen Zhang, a postdoctoral researcher in Kocharovskaya's group who participated in the experiment and co-authored the team’s paper. “Thus, a new protocol was suggested in our earlier work.”
According to Zhang, the idea behind the team’s new protocol is very simple, at least in terms of quantum fundamentals. Essentially, a set of moving nuclear absorbers forms a frequency comb in the absorption spectrum due to the Doppler frequency shift caused by the motion. A short pulse with the spectrum matching a comb absorbed by such a set of nuclear targets will be re-emitted with the delay determined by the inverse Doppler shift as a result of the constructive interference between different spectral components.
“This idea was successfully realized in our current experiment featuring one stationary and six synchronously moving absorbers that have formed a seven-teeth frequency comb,” Zhang added.
Zhang says nuclear coherence lifetime is the limiting factor that determines the maximum storage time for this type of quantum memory. For instance, using longer-lived isomers than the iron 57 isotope the team chose for their current study would result in a longer memory time.
Regardless, he notes that working at a single-photon level without losing information qualifies the nuclear frequency comb protocol as a quantum memory, which is a first for X-ray energies. The next steps planned by the team include on-demand release of the stored photon wave packets, which could lead to realization of the entanglement between different hard X-ray photons — the main resource for quantum information processing. The team’s research also highlights the potential for extending optical quantum technologies to the short wavelength range, which is intrinsically less “noisy” due to averaging of fluctuations over a large number of high-frequency oscillations.
Kocharovskaya says the challenging possibilities are intriguing and that she and her collaborators look forward to continuing to explore the potential of their tunable, robust and highly versatile platform to advance the field of quantum optics at X-ray energies in the near future.
By Shana K. Hutchins, Texas A&M University College of Arts and Sciences
###
END
Achieving quantum memory in the hard X-ray range
2024-08-09
ELSE PRESS RELEASES FROM THIS DATE:
Study shows donor kidneys with toxoplasma do not increase risks for transplant patients
2024-08-09
A new study from UC Davis Health could help to increase the supply of donor kidneys.
Researchers have found that transplant patients who receive kidneys infected with the parasite toxoplasma have virtually the same outcomes as those who receive toxoplasma-negative organs.
Despite longstanding concerns, those who received kidneys from toxoplasma antibody positive donors (TPDs) had almost identical mortality and rejection rates. The research was published in Transplant International.
“Organs from donors who were positive for toxoplasma did ...
Advanced MRI scans help identify one in three concussion patients with ‘hidden disease’
2024-08-09
Offering patients with concussion a type of brain scan known as diffusion tensor imaging MRI could help identify the one in three people who will experience persistent symptoms that can be life changing, say Cambridge researchers.
Around one in 200 people in Europe every year will suffer concussion. In the UK, more than 1 million people attend Emergency Departments annually with a recent head injury. It is the most common form of brain injury worldwide.
When a patient in the UK presents at an Emergency Department with head injury, they ...
Psychological bias links good deeds to a belief in God, research says
2024-08-09
Experiments conducted by UC Merced researchers find that people who perform good deeds are far more likely to be thought of as religious believers than atheists. Moreover, the psychological bias linking kindness and helpfulness with faith appears to be global in scale.
Research on the mental link between moral behavior and religious belief goes back more than a decade. Prior research, however, emphasized the dark side of this equation, with participants asked whether they assumed it was more probable that a serial killer believed in God or was an atheist (people in nations all over the planet thought the latter ...
Greenland megatsunami led to week-long oscillating fjord wave
2024-08-09
In September 2023, a megatsunami in remote eastern Greenland sent seismic waves around the world, piquing the interest of the global research community.
The event created a week-long oscillating wave in Dickson Fjord, according to a new report in The Seismic Record.
Angela Carrillo-Ponce of GFZ German Research Centre for Geoscience and her colleagues identified two distinct signals in the seismic data from the event: one high-energy signal caused by the massive rockslide that generated the tsunami, and one very long-period (VLP) signal that lasted over a week.
Their analysis of the VLP signal—which was detected as far as 5000 kilometers away—suggests ...
Machine learning approach helps researchers design better gene-delivery vehicles for gene therapy
2024-08-08
Gene therapy could potentially cure genetic diseases but it remains a challenge to package and deliver new genes to specific cells safely and effectively. Existing methods of engineering one of the most commonly used gene-delivery vehicles, adeno-associated viruses (AAV), are often slow and inefficient.
Now, researchers at the Broad Institute of MIT and Harvard have developed a machine-learning approach that promises to speed up AAV engineering for gene therapy. The tool helps researchers engineer the protein shells of AAVs, called capsids, to have multiple desirable ...
Bacteria encode hidden genes outside their genome—do we?
2024-08-08
NEW YORK, NY (Aug. 8, 2024) -- Since the genetic code was first deciphered in the 1960s, our genes seemed like an open book. By reading and decoding our chromosomes as linear strings of letters, like sentences in a novel, we can identify the genes in our genome and learn why changes in a gene’s code affect health.
This linear rule of life was thought to govern all forms of life—from humans down to bacteria.
But a new study by Columbia researchers shows that bacteria break that rule and can create free-floating and ephemeral genes, raising the possibility that similar genes exist outside ...
Assistant professor's $1.1M NASA grant to develop computational tool aiding hypersonic vehicle design
2024-08-08
STARKVILLE, Miss.—NASA is awarding a Mississippi State University assistant professor a $1.13 million grant to develop a new simulation tool to aid the design of hypersonic vehicles used in space exploration.
Vilas Shinde of MSU’s Department of Aerospace Engineering won the grant to develop a new flow stability and transition analysis tool, which will aid researchers and aircraft designers in understanding and predicting changes associated with the boundary layer—air flow in the vicinity of an aircraft’s ...
Houston Methodist study shows new, more precise way to deliver medicine to the brain
2024-08-08
Houston Methodist researchers have discovered a more accurate and timely way to deliver life-saving drug therapies to the brain, laying the groundwork for more effective treatment of brain tumors and other neurological diseases.
In a study published this month in Communications Biology, an open access journal from Nature Portfolio, investigators used an electric field to infuse medicine from a reservoir outside the brain to specific targets inside the brain. This adds a new dimension to the 30-year-old process of injecting therapeutics into the brain through ...
A ‘thank you’ goes a long way in family relationships
2024-08-08
URBANA, Ill. – You’ve probably heard that cultivating gratitude can boost your happiness. But in marriage and families, it’s not just about being more grateful for your loved ones — it’s also important to feel appreciated by them. Researchers at the University of Illinois Urbana-Champaign have previously explored the positive impact of perceived gratitude from romantic partners for couples’ relationship quality. In a new study, they show the benefits of perceived gratitude ...
How a legal loophole allows unsafe ingredients in US foods
2024-08-08
The Food and Drug Administration (FDA) is tasked with overseeing the safety of the U.S. food supply, setting requirements for nutrition labeling, working with companies on food recalls, and responding to outbreaks of foodborne illness. But when it comes to additives already in our food and the safety of certain ingredients, FDA has taken a hand-off approach, according to a new article in the American Journal of Public Health.
The current FDA process allows the food industry to regulate itself when it comes to thousands of added ...