Level 1 — Absolute Beginner
Scientists at Los Alamos National Laboratory did something new with tiny quantum computers.
They found a way to make time seem to run backward inside a quantum system.
Normally, measuring something in physics disturbs it. This new method can pull energy back out after that disturbance.
This could help make better quantum computers and better quantum batteries in the future.
- physicist
- a scientist who studies matter, energy, and how the universe works
- quantum
- relating to the very small scale of atoms and particles
- reverse
- to make something go in the opposite direction
- measurement
- the act of finding out the size, amount, or value of something
- disturb
- to change or interrupt something that was steady
- energy
- the power needed to do work or make things happen
- battery
- a device that stores energy for later use
- laboratory
- a place where scientists do experiments and research
Level 2 — Elementary
Researchers at Los Alamos National Laboratory have developed new quantum control techniques that can reshape what scientists call the arrow of time inside a quantum system.
The arrow of time is the idea that time naturally moves in only one direction, from past to future, but this new method can engineer trajectories that behave as if time were flowing backward.
Normally, measuring a quantum system disturbs it and adds energy that seems to be lost, but the researchers built a measurement engine that can pull that energy back out and store it.
The work, published in the journal Physical Review X, could lead to more efficient quantum computers and new kinds of quantum batteries that use the energy released by measurement itself.
- quantum control
- techniques used to precisely manage and manipulate quantum systems
- arrow of time
- the concept that time moves in only one direction, from past to future
- trajectory
- the path a system or object follows over time
- engine
- here, a system designed to convert one form of energy into useful work
- store
- to keep something, such as energy, for later use
- journal
- a publication where scientists share their research findings
- efficient
- able to achieve results without wasting energy or resources
- release
- to let something go or set it free, such as energy
Level 3 — Intermediate
A team at Los Alamos National Laboratory has introduced quantum control protocols capable of reshaping a monitored system's arrow of time, engineering a specially designed Hamiltonian that can blur or even reverse the perceived direction in which the system evolves.
The arrow of time, the principle that thermodynamic processes naturally unfold in one direction, has long been treated as an unbreakable boundary, but the researchers demonstrate that carefully applied quantum control can emulate backward-in-time dynamics within a monitored quantum system.
As a striking demonstration, the team constructed a measurement engine that harvests energy from the act of making quantum measurements, meaning that the disturbance introduced by observing the system can be captured and redirected into a battery rather than dissipated and lost.
Published in Physical Review X, the research suggests new strategies for preparing and manipulating quantum states with far greater precision, with potential applications ranging from more resilient quantum computers to entirely new categories of quantum-scale energy storage devices.
- protocol
- a formal set of steps or procedures used to carry out a process
- Hamiltonian
- a mathematical function describing the total energy of a physical system
- monitored system
- a system that is being continuously observed or measured
- thermodynamic
- relating to the relationships between heat, energy, and work
- emulate
- to imitate or reproduce the behavior of something
- harvest
- here, to collect and make use of something, such as energy
- dissipate
- to gradually disperse or spread out until it disappears
- resilient
- able to withstand or recover quickly from difficult conditions
Level 4 — Advanced
A team at Los Alamos National Laboratory has unveiled quantum control protocols that reshape a monitored system's arrow of time, constructing a purpose-built control Hamiltonian capable of blurring, or in specific regimes fully reversing, the perceived directionality of a quantum trajectory as it unfolds under continuous observation.
Long regarded as an inviolable feature of thermodynamics, the arrow of time, the asymmetry by which physical processes appear to run only from past to future, is shown by the researchers to be susceptible to engineered quantum intervention, at least within the carefully controlled and monitored regime their protocol establishes.
The centerpiece demonstration, a measurement engine that extracts usable energy from the disturbance inherent in quantum measurement itself, upends a tacit assumption in quantum thermodynamics: that the energy a measurement imparts to a system is necessarily dissipated rather than recoverable, and instead redirects that energy into storage.
Published in Physical Review X, the findings carry implications well beyond a laboratory curiosity, suggesting concrete pathways toward quantum computing architectures with markedly reduced decoherence losses and an entirely novel class of quantum battery whose charge derives from the very act of being observed.
- purpose-built
- designed and constructed specifically for a particular use
- directionality
- the quality of having or moving in a particular direction
- asymmetry
- a lack of equivalence or balance between two sides or directions
- inviolable
- never to be broken, changed, or dishonored
- susceptible
- capable of being affected or influenced by something
- tacit assumption
- an idea accepted as true without being directly stated or questioned
- decoherence
- the loss of a quantum system's delicate quantum properties due to interaction with its environment
- curiosity
- here, something interesting mainly for its novelty rather than practical use