Latest Articles for Spectroscopy

A study reveals improved methods for analyzing exoplanet atmospheres, focusing on HD 179949 b.

Study reveals characteristics of emission line galaxies through observational methods.

Research reveals unexpected light ratios in low-mass galaxy SXDF308.

A novel approach simulates how molecules interact with light using machine learning.

A look into how light interacts with hydrogen atoms and impacts spectral line profiles.

Research reveals key insights into the atmosphere of an ultra-hot Jupiter.

Exploring how temperature affects signal clarity in two-dimensional electronic spectroscopy.

A newly discovered celestial body with unusual red colors offers fresh insights.

Research on thulium's hyperfine structure advances understanding of stellar spectra.

New findings shed light on the brown dwarf HD 33632 Ab and its properties.

Investigating the unique characteristics of X-ray emissions from Nova YZ Ret.

Research examines how young stars' outflows shape their formation.

This study examines magnetic fields in young stars and their impact on evolution.

New method accurately measures organic gases in ambient air.

Examining the pulsations and stellar winds of the pulsating WC8 star WR135.

A new study reveals the complexities of Centauri's star populations and metallicity variations.

This study examines fluorescence in T Tauri stars, focusing on light interactions.

A user-friendly software for analyzing molecular line lists in exoplanet atmospheres.

A review of the Bond Polarizability Model's effectiveness in Raman spectroscopy analysis.

Exploring the significance of formyl cation in interstellar environments.

Investigating how chromospheric emissions reveal star ages and magnetic activity.

Research into Raman scattering and anti-resonant fibers is revolutionizing light applications.

This study examines contact binary systems and their unique characteristics.

Study reveals atmospheric elements of TOI-1431 b and TOI-1518 b.

New techniques improve data analysis from solar imaging instruments.

This study examines how gas and dust disks around young stars affect planet formation.

Study reveals how electrons behave during chemical reactions at the molecular level.

Recent studies reveal insights into Titan's atmosphere and hydrocarbon behaviors.

New methods improve predictions of complex quantum systems using machine learning.

A look into the intriguing phenomena of ILRTs and their cosmic significance.

Research explores sulfur chains' behavior on ice in space-like conditions.

Research reveals new Nd III energy levels crucial for star analysis.

A machine learning approach streamlines molecular structure prediction from NMR data.

Study examines how collisions affect rubidium atoms' energy states and light emission.

Study reveals complex interactions between RU Lup and its surrounding material.

Study reveals significant insights into macroturbulence in stellar atmospheres.

A look into the unique properties of van der Waals materials.

This study updates models of accretion disks to include high-density plasma effects.

A compact FTIR device enhances material analysis while minimizing power needs.

New method measures phase noise in Cr:ZnS frequency combs for improved spectroscopy.