The Arrhenius equation, which has accurately described rates of chemical reactions for more than a century, may have to be ...

引力波探测器使用数公里长的干涉仪来测量时空的微小膨胀和收缩。由于量子力学的原因，这些测量的精度是有限的。理论上，利用光的压缩态可以超越量子极限，而合适的滤光腔可以在更宽的频率范围内扩展这一优势。

The two have created 12 highly reliable logical qubits and demonstrated a hybrid chemistry simulation with HPC, AI, and ...

【新智元导读】微软宣布了创纪录的12个纠缠逻辑量子比特，首次实现了端到端量子+AI+云化学分子的模拟。这一创举，意味着人类已经进入量子计算新纪元。 而现在，微软通过扩展微软纠错算法，并对H2进行优化。由此，改进后的H2量子计算机，实现了56个量子比特 ...

研究和开发量子计算技术的最终目的是用于解决现实科学问题，尤其是经典计算无法解决的科学难题。为了证明量子计算在化学领域中的新兴用途，微软和 Quantinuum 团队将量子计算、高性能计算、人工智能模型结合在一起，使用端到端混合工作流程来解决化学中的实际问题。

A quantum computing protocol makes it possible to extract energy from seemingly empty space, teleport it to a new location, ...

Protein structure prediction, efficient simulations and clean energy among the fields tipped for recognition by chemistry's ...

IBM has launched the Qiskit Functions Catalog to promote faster development of quantum algorithms and applications by both quantum specialists and other developers.

At Microsoft, we’re ushering in a new era of computing on the path to unlocking scientific advantage and tackling some of the ...

Quantum physics is still an emerging field, and much remains unknown about what can be accomplished. Scientists in the field ...

In quantum error correction, multiple faulty qubits are combined to make reliable qubits, called logical qubits, which are then used to perform the calculation. Previous efforts found that error ...

IBM today launched the Qiskit Functions Catalog, a new set of services that aims to make programming quantum computers easier ...