entangled dot cloud
MIT engineers develop a magnetic transistor for more energy-efficient electronics
Transistors, the building blocks of modern electronics, are typically made of silicon. Because it’s a semiconductor, this material can control the flow of electricity in a circuit. But silicon has fundamental physical limits that restrict how compact and energy-efficient a transistor can be.MIT researchers have now replaced silicon with a magnetic semiconductor, creating a magnetic transistor that could enable smaller, faster, and more energy-efficient circuits. The material’s magnetism strongly
Quantum computing bombshells that are not April Fools
For those of you who haven’t seen, there were actually two “bombshell” QC announcements this week. One, from Caltech, including friend-of-the-blog John Preskill, showed how to do quantum fault-tolerance with lower overhead than was previously known, by using high-rate codes, which could work for example in neutral-atom architectures (or possibly other architectures that allow nonlocal operations, like trapped ions). The second bombshell, from Google, gave a lower-overhead implementation
World's largest quantum circuit simulation for quantum chemistry achieved on 1,024 GPUs
A joint research team between the Center for Quantum Information and Quantum Biology (QIQB) at The University of Osaka and Fixstars Corporation has demonstrated one of the world's largest classical simulations of iterative quantum phase estimation (IQPE) circuits for quantum chemistry on up to 1,024 GPUs, surpassing the previous 40-qubit limit. The result expands the scale of molecular systems available for the development and validation of quantum algorithms for future fault-tolerant quantum co
Active dissociation of intracortical spiking and high gamma activity
<p>Nature, Published online: 01 April 2026; <a href="https://www.nature.com/articles/s41586-026-10331-y">doi:10.1038/s41586-026-10331-y</a></p>A brain–machine interface is used in monkeys to investigate the biophysical underpinnings of cortical high gamma-band activity, a signal that is often studied in the context of many brain functions.
Deconstruction of a spino-brain–spinal cord circuit that drives chronic pain
<p>Nature, Published online: 01 April 2026; <a href="https://www.nature.com/articles/s41586-026-10296-y">doi:10.1038/s41586-026-10296-y</a></p>In mice, a circuit between the spinal cord and various regions of the brain, centring on spinal-cord-projecting neurons in the rostral ventromedial medulla, has a key role in driving chronic pain.
Nanoscale transfer-printed full-colour ultrahigh-resolution quantum dot LEDs
Nature, Published online: 01 April 2026; doi:10.1038/s41586-026-10333-wA dual-action force dynamics strategy using a hard silicon template as a nanoimprinting stamp combined with inverted transfer printing is described for the manufacture of high-performance full-colour ultrahigh-resolution quantum dot light-emitting diodes (LEDs) for active-matrix displays, while revealing electric-field reconstruction in nanoscale arrays and introducing dielectric matching to mitigate field concentration and p
Useful quantum computers could be built with as few as 10,000 qubits, team finds
Quantum computers of the future may be closer to reality thanks to new research from Caltech and Oratomic, a Caltech-linked start-up company. Theorists and experimentalists teamed up to develop a new approach for reducing the errors that riddle today's rudimentary quantum computers. Whereas these machines were previously thought to require millions of qubits to work properly (qubits being the quantum equivalent to 1's and 0's in classical computers), the new results indicate that a fully realize
Ultrafast quantum light pulses measured for the first time
Researchers at the Technion—Israel Institute of Technology have, for the first time, measured the temporal duration of individual pulses of an extraordinary form of quantum light known as bright squeezed vacuum (BSV). Their findings are published in Optica.
A 200-year-old light trick just transformed quantum encryption
Scientists have unveiled a new approach to ultra-secure communication that could make quantum encryption simpler and more efficient than ever before. By harnessing a 19th-century optics phenomenon called the Talbot effect, researchers developed a system that sends information using multiple states of single photons instead of just two, dramatically boosting data capacity. Even more impressive, the setup works with standard components and requires only a single detector, reducing cost and complex
Google finds quantum computers could break bitcoin’s encryption sooner than expected
Bitcoin and several other cryptocurrencies use an implementation of ECC called secp256k1. According to Google, its ...
Prediction: These 2 Quantum Computing Stocks Will Soar Over the Next 5 Years
My two favorite quantum computing stocks that I think will soar during the next few years are IonQ ( IONQ 7.83%) and D-Wave ...
First quantum computer set to debut in Andhra Pradesh
VIJAYAWADA: Chief Minister N Chandrababu Naidu has unveiled an ambitious plan to transform Amaravati into a global hub for quantum computing and position Andhra Pradesh at the forefront of ...
Bitcoin bulls scramble for post-quantum protection as Google drops bombshell paper
Google's finding that breaking bitcoin's cryptography requires 20x fewer qubits than previously estimated has triggered the strongest industry response to quantum threats since the Willow chip in 2024. Here's how builders, investors, and researchers are reacting.
2030: The Year Of Practical Quantum Computing. How Should Companies Prepare?
Fujitsu quantum researcher Shinji Kikuchi discusses the quantum computing paradigm shift expected around 2030, as well as how ...
'Monumental achievement': Groundbreaking computer positions U of S as key player in quantum research
A groundbreaking quantum computer that will be owned and operated by the University of Saskatchewan will position the school ...
Breaking Bitcoin with quantum may be easier than thought, with Taproot partly to blame, Google says
The findings suggest attackers could one day steal bitcoin mid-transaction, challenging assumptions that the threat is decades away.
Silicon quantum computer performs logical operations for the first time
Silicon is ubiquitous in modern electronics, and now it is becoming increasingly useful in quantum computing. In particular, ...
Google Quantum Paper Boosts Odds of Bitcoin ‘Q-Day’ by 2032, Researchers Warn
Google warned that quantum advances could break crypto security sooner than expected, with analysts recommending ‘appropriate urgency.’
Google Finds Quantum Computers Could Break Bitcoin Sooner Than Expected
Google published a paper on March 31 that states that Bitcoin's cryptography could be impacted by quantum computing sooner than previously stated.
Google warns quantum attack could crack Bitcoin in 9 minutes
Google's new whitepaper says it could take only minutes for a quantum system to crack Bitcoin.