Advanced experimental measurements are crucial for driving theoretical developments and unveiling novel phenomena in condensed matter and materials physics, which often suffer from the scarcity of large-scale facility resources, such as x-ray or neutron scattering centers. To address these limitations, we introduce a methodology that leverages the Bayesian optimal experimental design paradigm to efficiently uncover key quantum spin fluctuation parameters from x-ray photon fluctuation spectroscopy (XPFS) data. Our method is compatible with existing theoretical simulation pipelines and can also be used in combination with fast machine learning surrogate models in the event that real-time simulations are unfeasible. Our numerical benchmarks de...
The rapidly improving performance of inelastic scattering instruments has prompted tremendous advan...
Abstract. Using Bayesian experimental design techniques, we have shown that for a single two-level q...
The advent of next-generation X-ray free electron lasers will be capable of delivering X-rays at a r...
We present an adaptive design of experiment (DoE) by machine learning for X-ray spectroscopy to impr...
Phase-estimation protocols provide a fundamental benchmark for the field of quantum metrology. The l...
Bayesian experimental design is a technique that allows to efficiently select measurements to charac...
Bayesian experimental design is a technique that allows to efficiently select measurements to charac...
Machine learning models are usually trained by a large number of observations (big data) to make pr...
Spectroscopy is a widely used experimental technique, and enhancing its efficiency can have a strong...
The rapidly improving performance of inelastic scattering instruments has prompted tremendous advanc...
The total measurement time of an X-ray spectromicroscopy experiment using a scanning transmission X-...
Optimizing the dynamics of quantum systems enables the design of high precision experiments and the ...
Nowadays, an increasing number of scattering measurements rely on the use of large-scale research fa...
7 pags., 3 figs., 1 app.Quantum sensors typically translate external fields into a periodic response...
This thesis illustrates the use of machine learning algorithms and exact numerical methods to study ...
The rapidly improving performance of inelastic scattering instruments has prompted tremendous advan...
Abstract. Using Bayesian experimental design techniques, we have shown that for a single two-level q...
The advent of next-generation X-ray free electron lasers will be capable of delivering X-rays at a r...
We present an adaptive design of experiment (DoE) by machine learning for X-ray spectroscopy to impr...
Phase-estimation protocols provide a fundamental benchmark for the field of quantum metrology. The l...
Bayesian experimental design is a technique that allows to efficiently select measurements to charac...
Bayesian experimental design is a technique that allows to efficiently select measurements to charac...
Machine learning models are usually trained by a large number of observations (big data) to make pr...
Spectroscopy is a widely used experimental technique, and enhancing its efficiency can have a strong...
The rapidly improving performance of inelastic scattering instruments has prompted tremendous advanc...
The total measurement time of an X-ray spectromicroscopy experiment using a scanning transmission X-...
Optimizing the dynamics of quantum systems enables the design of high precision experiments and the ...
Nowadays, an increasing number of scattering measurements rely on the use of large-scale research fa...
7 pags., 3 figs., 1 app.Quantum sensors typically translate external fields into a periodic response...
This thesis illustrates the use of machine learning algorithms and exact numerical methods to study ...
The rapidly improving performance of inelastic scattering instruments has prompted tremendous advan...
Abstract. Using Bayesian experimental design techniques, we have shown that for a single two-level q...
The advent of next-generation X-ray free electron lasers will be capable of delivering X-rays at a r...