Metal–organic frameworks (MOFs) are considered to be a promising porous material due to
their excellent porosity and chemical tailorability. However, due to the relatively weak …

Over the past few decades, significant progress has been made in quantum information
technology, from theoretical studies to experimental demonstrations. Revolutionary quantum …

Quantum metrology uses non-classical states, such as Fock states with a specific number of
photons, to achieve an advantage over classical sensing methods. Typically, quantum …

Entanglement is one of the most important resources in quantum computing, cryptography
and sensing. However, entanglement is also fragile, and its potential advantages are …

Quantum reservoir computing (QRC) has been proposed as a paradigm for performing
machine learning with quantum processors where the training takes place in the classical …

Selective hydrogenation with supported metal catalysts widely used in the production of fine
chemicals and pharmaceuticals often faces a trade-off between activity and selectivity …

Going beyond the standard quantum limit in noisy quantum metrology is an important and
challenging task. Here we show how Dicke states can be used to surpass the standard …

Quantum error correction (QEC) is theoretically capable of achieving the ultimate estimation
limits in noisy quantum metrology. However, existing quantum error-correcting codes …

Quantum metrology has emerged as a promising avenue for surpassing the limitations of
classical mechanics in high-precision measurements. However, the practical …

Recent advancements in quantum technologies have highlighted the importance of
mitigating system imperfections, including parameter uncertainties and decoherence effects …