Phaseless Auxiliary-Field Quantum Monte Carlo Method for Cavity-QED Matter Systems.

We present a generalization of the phaseless auxiliary-field quantum Monte Carlo (AFQMC) method to cavity quantum-electrodynamical (QED) matter systems. The method can be formulated in both the Coulomb and the dipole gauge. We verify its accuracy by benchmarking calculations on a set of small molecules against full configuration interaction and state-of-the-art QED coupled cluster (QED-CCSD) calculations.

Challenges in the diagnosis and follow-up of Cushing's syndrome: Evaluating LC-MS/MS as a confirmation method for urinary free cortisol analyses.

24-h urinary free cortisol (UFC) measurements are fundamental in the diagnosis and follow-up of Cushinǵs syndrome (CS) and immunoassays (IA) are the most widely used tests for its quantification in clinical laboratory practice. However, their suitability has been questioned mainly due to their limitations concerning analytical specificity. The aim of this research project was to evaluate a novel algorithm for CS diagnosis and follow-up in the clinical laboratory, based on the combination of IA tests with liquid chromatography-tandem mass spectrometry (LC-MS/MS) for UFC quantification.

Epidemiological, clinical characterization and treatment patterns of migraine patients in a Colombian cohort from 2018 to 2022.

Background: To describe the epidemiology and clinical characteristics of migraine and the status of treatment in Colombia. Additionally, the use of health resources by patients was measured.

Methods: This was a non-interventional, retrospective, descriptive study conducted in one Colombian Health Management Organization (HMO) from 2018 to 2022 with a follow-up period of 5 years.

Quantum Electrodynamics in High-Harmonic Generation: Multitrajectory Ehrenfest and Exact Quantum Analysis.

High-harmonic generation (HHG) is a nonlinear process in which a material sample is irradiated by intense laser pulses, causing the emission of high harmonics of incident light. HHG has historically been explained by theories employing a classical electromagnetic field, successfully capturing its spectral and temporal characteristics. However, recent research indicates that quantum-optical effects naturally exist or can be artificially induced in HHG, such as entanglement between emitted harmonics.

The relevance of degenerate states in chiral polaritonics.

In this work, we theoretically explore whether a parity-violating/chiral light-matter interaction is required to capture all relevant aspects of chiral polaritonics or if a parity-conserving/achiral theory is sufficient (e.g., long-wavelength/dipole approximation).