Chemists synthesise molecule as possible component for quantum computers
Quantum computers could vastly increase the capabilities of IT systems, bringing major changes worldwide. However, there is still a long way to go before such a device can actually be constructed, because it has not yet been possible to transfer existing molecular concepts into technologies in a practical way. This has not kept researchers around the world away from developing and optimising new ideas for individual components. Chemists at Friedrich Schiller University in Jena (Germany) have now synthesised a molecule that can perform the function of a computing unit in a quantum computer. They report on their work in the current issue of the research journal Chemical Communications.
Molecule with sufficiently long-lived spin state
To be able to use a molecule as a qubit the basic unit of information in a quantum computer it needs to have a sufficiently long-lived spin state, which can be manipulated from the outside, explains Prof. Dr Winfried Plass of the Jena University. That means that the state resulting from the interacting spins of the molecules electrons, that is to say the spin state, has to be stable enough so that one can enter and read out information. The molecule created by Plass and his team meets precisely this condition.
This molecule is what is called a coordination compound, containing both organic and metallic parts. The organic material forms a frame, in which the metal ions are positioned in a very specific fashion, says Benjamin Kintzel, who played a leading role in producing the molecule. In our case, this is a trinuclear copper complex. What is special about it is that within the molecule, the copper ions form a precise equilateral triangle. Only in this way the electron spins of the three copper nuclei can interact so strongly that the molecule develops a spin state, which makes it a qubit that can be manipulated from the outside.
Even though we already knew what our molecule should look like in theory, this synthesis is nevertheless quite a big challenge, says Kintzel. In particular, achieving the equilateral triangular positioning is difficult, as we had to crystallise the molecule in order to characterise it precisely. And it is hard to predict how such a particle will behave in the crystal. However, with the use of various different chemical tools and fine-tuning procedures, the researchers succeeded in achieving the desired result.
Addressing information with electric fields
According to theoretical predictions, the molecule created in Jena offers an additional fundamental advantage compared with other qubits. The theoretical construction plan of our copper compound provides that its spin state can be controlled at the molecular level using electric fields, notes Plass. Up to now, magnetic fields have mainly been used, but with these you cannot focus on single molecules. A research group in Oxford, UK, which is cooperating with the chemists from Jena, is currently conducting various experiments to study this characteristic of the molecule synthesised at the University of Jena.
The team of chemists in Jena is convinced that their molecule fulfils the requirements for being used as a qubit. However, it is difficult to foresee whether it really will have a future use as a computing unit. This is because it is not yet definitely known how molecules will actually be integrated into quantum computers. Chemical expertise is also needed to achieve this and the experts in Jena are ready to face the challenge.
Learn more: Copper compound as promising quantum computing unit
The Latest on: Quantum computer
[google_news title=”” keyword=”quantum computer” num_posts=”10″ blurb_length=”0″ show_thumb=”left”]
via Google News
The Latest on: Quantum computer
- Unequal access to quantum information education may limit progress in this emerging field − now is the time to improveon July 23, 2024 at 5:11 am
Universities and colleges nationwide are beginning to investigate quantum education to develop a workforce ready for quantum technology.
- 6 Best Quantum Computing Jobs in 2024, With Salarieson July 23, 2024 at 5:06 am
Explore six top quantum computing jobs in 2024. Learn about the most exciting career opportunities to pursue in quantum computing and their salaries.
- The Emerging Quantum Economyon July 23, 2024 at 4:45 am
The idea that quantum computers will be next isn’t new; it’s a story that has been told for decades. What is new is just how close this “perpetually distant future” really is. These systems will be ...
- Solving Quantum Mysteries: Physicists Confirm Entropy Rule for Entanglementon July 23, 2024 at 3:18 am
New research has established a reversible framework for quantum entanglement, aligning it with the principles of thermodynamics and paving the way for improved manipulation and understanding of ...
- Quantum computing – might impatient capital win?on July 23, 2024 at 2:21 am
Interestingly, 78% of [recent] deals completed were for companies founded earlier than 2019. Between 2017 and 2019, we saw the highest number of quantum start-ups, but globally in 2023 there were only ...
- 3 Quantum Computing Stocks to Buy Now: Q3 Editionon July 22, 2024 at 6:52 am
Quantum computing is a burgeoning field in advanced computation technology that has the capabilities to outpace the computing prowess of generative artificial intelligence (AI). Generative AI came ...
- New quantum computer smashes 'quantum supremacy' record by a factor of 100 — and it consumes 30,000 times less poweron July 21, 2024 at 5:00 am
The 56-qubit H2-1 computer has broken the previous record in the 'quantum supremacy' benchmark first set by Google in 2019.
- Investing In The Quantum Revolution: Key Opportunities For A Computing Renaissanceon July 19, 2024 at 11:42 am
By re-evaluating the foundational principles of quantum mechanics through diverse lenses, we open doors to a myriad of developmental pathways.
- 3 Quantum Computing Stocks That Could Grow Your Wealthon July 19, 2024 at 3:26 am
InvestorPlace - Stock Market News, Stock Advice & Trading Tips Quantum computing stocks are working toward creating and selling quantum ...
via Bing News