'Significantly advance future Army capabilities': US Army keen on quantum control research that promises to deliver a huge leap in future energy generation and computing
Date:
Wed, 03 Jun 2026 21:15:00 +0000
Description:
US Army-funded researchers are investigating quantum vibrations in ultrathin materials that could influence future computing, communications and energy technologies.
FULL STORY ======================================================================Copy link Facebook X Whatsapp Reddit Pinterest Flipboard Threads Email Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Subscribe to our newsletter Army-funded researchers explore quantum vibrations as future control mechanisms. Vibronic effects may influence future quantum communication technologies. Energy losses in materials drive interest in quantum control. The US Army has invested in quantum research exploring how vibrations influence electronic behavior in ultrathin materials.
Scientists at the University of California, Riverside, are examining whether these vibronic effects could eventually transform both energy harvesting and computational systems. The Center for Quantum Vibronics in Energy and Time (QuVET) brings together physicists, chemists, engineers, and biochemists to study these fundamental interactions across biological and synthetic systems. Latest Videos From Watch full video here: Vibrations become a control mechanism for quantum behaviour Unlike conventional computing that relies on binary states, quantum approaches exploit phenomena such as superposition, where a wave function exists in multiple places simultaneously.
QuVET researchers want to determine whether a quantum wave function jumps across an interface or stays where it originally resides. You may like Silicon-based qubits have a clear advantage in race to million-qubit quantum computer Quantum battery prototype charges faster as its size increases A new approach to navigation could reduce reliance on GPS
"The idea is that vibrations may become the control knob, enabling future 'quantum vibronic switches' that use crystal vibrations to turn quantum transitions on and off," said Nathaniel Gabor, a professor of physics and astronomy.
Understanding this switching process is essential for improving technologies like solar power generation, where light creates neutral excitations that
must separate into free charges. Are you a pro? Subscribe to our newsletter Sign up to the TechRadar Pro newsletter to get all the top news, opinion, features and guidance your business needs to succeed! Contact me with news
and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.
If that energy does not get extracted fast enough, it dissipates as heat or gets re-emitted as light instead of becoming usable electricity.
Gabor noted that biological systems have evolved methods to pull energy out extremely quickly, and his team aims to replicate that efficiency in artificial materials.
In photosynthesis, a charge-neutral quantum excitation moves from molecule to molecule until reaching a reaction center, where separation occurs. What to read next Quantums ChatGPT moment is coming - and it wont be driven by hardware Researchers build foundation for quantum internet using current
fiber infrastructure Scientists build a silicon photonic chip that embraces the chaos
The same physics that enables plants to harvest sunlight could eventually enable new forms of quantum control and computation in synthetic layered devices. Army sees strategic value in quantum control research The US Army
has funded this quantum research through a Multidisciplinary University Research Initiative grant administered by its Combat Capabilities Development Command Army Research Office.
Tania Paskova, a program manager at that office, stated that understanding vibronic effects could prove instrumental for future artificial biological systems designed by military scientists.
This research is answering critical scientific questions that could become instrumental in understanding and controlling vibronic effects in artificial biological systems, she said.
By establishing roadmaps for using vibronic effects for novel quantum
photonic and optoelectronic devices, this research has the potential to significantly advance future Army capabilities in quantum computing, secure communications, and sensing technologies.
The Army acknowledges, however, that substantial hurdles remain before any practical military application emerges from these laboratory findings.
Most quantum experiments demand cryogenic temperatures and highly controlled conditions that do not translate easily to battlefield environments.
By funding basic research rather than demanding immediate prototypes, the
Army is making a long-term strategic bet on physics that could take decades
to mature.
Whether this investment yields genuine quantum computing advances or merely interesting scientific footnotes depends entirely on experimental results
that do not yet exist. Follow TechRadar on Google News and add us as a preferred source to get our expert news, reviews, and opinion in your feeds.
======================================================================
Link to news story:
https://www.techradar.com/pro/significantly-advance-future-army-capabilities-u s-army-keen-on-quantum-control-research-that-promises-to-deliver-a-huge-leap-i n-future-energy-generation-and-computing
--- Mystic BBS v1.12 A49 (Linux/64)
* Origin: tqwNet Technology News (1337:1/100)