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The first quantum chip will appear in two years
A lot has been said and written about quantum computers, including on the pages of our website. The year before last, the media leaked a message about the creation of the first quantum cryptography system (Navajo), last year the Swiss company QuantiQ released its commercial quantum-cryptographic system, and although the creation of the first quantum computers is still far away (there are a number of problems, which, however, are more likely are only technical in nature), these advances in the practical application of quantum mechanics inspire some optimism.
Scientists have achieved the greatest success in games with quantum mechanical properties using discrete states of polarization in photons. With two-level systems using projections of the spin magnetic moment of electrons (fermions), so far there has been little progress, however, Professor Albert Chang of Duke University (previously worked at Purdue University and collaborated with Bell Labs, which created Navajo) claims to have created a system, allowing manipulation of the so-called entangled spin states of electrons in an electronic semiconductor device. Without going into the jungle of quantum mechanics, this can be explained as follows: if in digital electronics the coding “0” or “1” occurs at the level or edge of the rise / fall of an electrical signal, then in spin quantum electronics, “0” and “1” are encoded with using the projection of the spin magnetic moment of the electron onto the axis, taking the values ”+1/2″ or “–1/2”. Since the state of an electron (q-bit) in quantum mechanics can be described as a superposition of several “pure” states (this state is called “mixed”), computational actions on such states are equivalent to computations with several “mixed” q-bits simultaneously. But that’s not all: if two q-bits are “confused”, that is, create an “entangled” state, two mixed states will be obtained, indistinguishable from each other and having a common density matrix – that is, operating with one q -bit, we will simultaneously, as it were, operate with another.
Now, the professor plans to create a quantum key (or, in terms of quantum electronics – a gate, gate), which can be used in electronic computing devices. Chang predicts that a quantum electronic gate can be created within the next two years. Earlier, in 2021, the professor predicted the creation of entangled quantum states in electronics over the next 2-5 years, and his prediction came true.
The photo shows a device created by the professor (please note – nanoscopic), consisting of two gallium arsenide transistors with a common source and drain (double quantum dot, quantum-dot). Each quantum dot contains an odd number of electrons in such a way that the resulting spin remains half-integer. By passing current through transistors, you can measure the relative direction of the spins in two quantum dots – parallel or antiparallel, or you can measure the direction of the spin in each quantum dot separately ? thus, the scientist showed that electrons in two adjacent transistors can be driven into an “entangled” state.