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Quantum traps – for quantum chips
As we have already drawn the attention of our readers more than once, quantum computers that seemed absolutely fantastic for several years are gradually acquiring more and more real features. The implementation of quantum computers is the subject of another publication by scientists from the University of Maryland in the journal Nature Physics.
Let us briefly recall that the difference between conventional and quantum computing starts from the very basics – with the methods of data representation. Modern computers, including personal computers, use a binary number system, in which data is written in the form of binary numbers (taking values 0 or 1). Quantum computers use so-called qubits to record information (from the words quantum bit – eng. quantum bits) – a certain state of a two-level quantum system, which is a superposition of several “0” and “1”. The beauty of “quantumness” is that when performing calculations with one qubit, operations are simultaneously performed on all “0s” and “1s” that are “recorded” in it. Sometimes this property of quantum computers is also called quantum parallelism.
To date, several options have been developed for creating such quantum bits – we will not dwell on them in detail. A team from the University of Maryland announces the creation of a trap that contains laser-guided ions. Controlled in the sense that their quantum states change upon absorption / emission of light quanta. The ion trap is created by four alternating layers of aluminum-gallium arsenide and gallium arsenide, deposited on a substrate by molecular epitaxy, as well as several electromechanical electrodes. These microscopic electrodes, in addition to being used to create an electrostatic field, have an additional mechanical degree of freedom. Cadmium-111 vapors were used as ions; sublimation was performed by laser ablation.
The trap created in this way makes it possible to capture a single cadmium ion and control its quantum state. The figure shows an electron microscopic photograph of a linear gallium arsenide / aluminum-gallium arsenide ion trap. The photo shows a single cadmium ion (luminous point). Gap size – 60 microns.
Well, the work of scientists from the University of Maryland is a clear demonstration of the possibilities for miniaturization of quantum computers, which now occupy individual laboratories. However, the path to creating full-fledged quantum computers is still very long, although, for example, the developers of Hitachi are already claiming the creation of the first quantum chip.