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Researchers have developed a new way to create quantum memory: A small drum can store data sent with light in its sonic vibrations, and then forward the data with new light sources when needed again.
The results demonstrate that mechanical memory for quantum data could be the strategy that paves the way for an ultra-secure internet with incredible speeds.
Just beneath Niels Bohrs old office at the University of Copenhagens Niels Bohr Institute is a basement where scattered tables are covered with small mirrors, lasers, and an agglomeration of all types of devices connected by webs of wires and heaps of tape. It looks like a childs project gone too far, one that their parents have tried in vain to get them to clean up.
While it is difficult for the untrained eye to discern that these tables are actually the home to an array of world-leading research projects, the important stuff is happening within worlds so small that not even Newtons laws apply. This is where Niels Bohrs quantum physical heirs are developing the most cutting-edge of quantum technologies.
One of these projects stands outfor physicists at leastby the fact that a gizmo visible to the naked eye is able to achieve quantum states. The quantum drum is a small membrane made of a ceramic, glass-like material with holes scattered in a neat pattern along its edges.
When the drum is beaten with the light of a laser, it begins vibrating, and does it so quickly and undisturbed that quantum mechanics come into play. This property has long since caused a stir by opening up a number of quantum technological possibilities.
Now, new work has demonstrated that the drum can also play a key role for the futures network of quantum computers. Like modern alchemists, researchers have created a new form of quantum memory by converting light signals into sonic vibrations.
Prior to the data-carrying light signal hitting the quantum drum membrane, an auxiliary laser ensures that the membranes natural vibrations, which come from ambient conditions, are brought under control. This stabilizes the diaphragm with a drum beat that is at the exact frequency it likes best. This is called resonance.
The drum becomes very sensitive when it resonates with the auxiliary laser, which, among other things, allows it to detect the signal stored in the data-carrying light with quantum precision.
Once data-filled light hits, its signal becomes part of the drums vibrations. Here, they can be stably preserved in a kind of sound memory prior to being sent onwards in a third laser, which is shot at the drum and mirrored out in a cable with data from the original light signal encoded.
In the new research article, the researchers have proven that quantum data from a quantum computer emitted as light signalse.g., through the type of fiber-optic cable already used for high-speed internet connectionscan be stored as vibrations in the drum and then forwarded.
Previous experiments demonstrated to researchers that the membrane can remain in an otherwise fragile quantum state. And on this basis, they believe that the drum should be able to receive and transmit quantum data without it decohering, i.e., losing its quantum state when the quantum computers are ready.
This opens up great perspectives for the day when quantum computers can really do what we expect them to. Quantum memory is likely to be fundamental for sending quantum information over distances. So, what weve developed is a crucial piece in the very foundation for an internet of the future with quantum speed and quantum security, says postdoc Mads Bjerregaard Kristensen of the Niels Bohr Institute, lead author of the new research article in Physical Review Letters.
When transferring information between two quantum computers over a distanceor among many in a quantum internetthe signal will quickly be drowned out by noise. The amount of noise in a fiber-optic cable increases exponentially the longer the cable is. Eventually, data can no longer be decoded.
The classical internet and other major computer networks solve this noise problem by amplifying signals in small stations along transmission routes. But for quantum computers to apply an analogous method, they must first translate the data into ordinary binary number systems, such as those used by an ordinary computer.
This wont do. Doing so would slow the network and make it vulnerable to cyber-attacks, as the odds of classical data protection being effective in a quantum computer future are very bad.
Instead, we hope that the quantum drum will be able to assume this task. It has shown great promise as it is incredibly well-suited for receiving and resending signals from a quantum computer. So, the goal is to extend the connection between quantum computers through stations where quantum drums receive and retransmit signals, and in so doing, avoid noise while keeping data in a quantum state, says Kristensen. He adds:
In doing so, the speeds and advantages of quantum computers, e.g., in relation to certain complex calculations, will extend across networks and the Internet, as they will be achieved by exploiting properties like superposition and entanglement that are unique to quantum states, he says.
If successful, the stations will also be able to extend quantum-secured connections, whose quantum codes could also be lengthened by the drum. These secure signals could be sent over various distances, whether around a quantum network or across the Atlantic, in the quantum internet of the future.
The method involves sending qubits of quantum data in an ultra-short light signal: A couple of entangled photons can be used to create nearly unbreakable codes.
These types of connections also ensure that any attempt to hack access will be exposed, as quantum law says that whenever something is observed, it changes.
A classical computer works like a large network of switches that can be in either on or off positions. These systems are called binary because of the two states that form the basis of the calculations performed by the computer. Like beads on an abacus, the on and off switches form patterns of binary code.
A quantum computer performs calculations with the help of quantum mechanics, and exploits that its quantum switches, or qubits, can be in quantum states, including superposition, where they are simultaneously on and off. This allows a quantum computer to rapidly manage large amounts of information in a way that classical computers cannot.
Quantum data transmitted via light signals can maintain its quantum state as long as it is sufficiently undisturbed. And, the Niels Bohr Institutes quantum drum can both receive and forward signals without disturbance.
Research is being conducted elsewhere on an alternative where a data-carrying light source is directed at an atomic system and temporarily shifts the electrons in the atom, but the method has its limitations.
There are limits to what you can do with an atomic system, as we cant design atoms or the frequency of the light that they can interact with ourselves. Our relatively large mechanical system provides more flexibility. We can tinker and adjust, so that if new discoveries change the rules of the game, there is a good chance that the quantum drum can be adapted, explains Professor Albert Schliesser, coauthor of the research article.
For better or worse, our abilities as researchers are mostly what define the limits for how well it all works, he points out.
The drum is the latest and most serious take on mechanical quantum memory as it combines a number of properties: The drum has low signal lossi.e., the data signals strength is well retained. It also has the tremendous advantage of being able to handle all light frequencies, including the frequency used in the fiber optic light cables upon which the modern Internet is built.
The quantum drum is also convenient because data can be stored and read whenever needed. And the record-long 23 milliseconds of memory time already achieved by researchers makes it far more likely that the technology may one day become a building block for systems of quantum networks as well as the hardware in quantum computers.
We are out early with this research. Quantum computing and communication are still at an early stage of development, but with the memory weve obtained, one can speculate that the quantum drum will one day be used as a kind of quantum RAM, a kind of temporary working memory for quantum information. And that would be groundbreaking, says the professor.
Natures rulebook is different in the quantum mechanical world. In particular, two quantum states neutralize the limitations of the ordinary world, giving quantum computers incredible powers.
Superposition: In quantum mechanics, superposition allows a particle to be in multiple states at the same time until it is measured. For example, a quantum bit (qubit) can be both 0 and 1 at the same time until it is measured and collapses to a certain state. Qubits leverage superposition to perform multiple calculations at once.
Tangling: Einstein referred to it as spooky action at a distance. The states of two or more entangled particles are closely related. A change in the state of a particle will instantly affect the state of the particles it is entangled with, regardless of distance. It is this property that makes it possible to create secure connections using codes that cannot be decoded without a tangled particle as a key. The condition also opens up the possibility of developing quantum teleportation, where information can be transferred without any direct transfer of particles.
Source: University of Copenhagen
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