Latest Articles for Light Curves

Examining double flare phenomena caused by smaller black holes in nuclear star clusters.

Research reveals significant flare activity in compact stars like white dwarfs and hot subdwarfs.

Study reveals signs of late-time interactions in supernovae, enhancing cosmic understanding.

Analyzing the behavior and characteristics of gamma-ray bursts reveals distinct patterns.

New techniques enhance identification of Type Ia supernovae, aiding cosmological studies.

Investigating the impact of gravitational lensing on Type Ia supernovae observations.

Research on young planets reveals important findings about their evolution and characteristics.

A study of star formation processes in the Mon R2 cluster.

A study on how Gaussian Processes identify brightness changes in Active Galactic Nuclei.

A new tool classifies supernovae without redshift data.

A look into the nature and observation of black holes in our universe.

Gaia18cjb shows unusual brightness changes, intriguing astronomers studying young stars.

Examining the mechanics and mysteries behind powerful gamma-ray bursts.

Research unveils new binary Cepheid systems, enhancing our grasp of stellar evolution.

BD-143065b blurs the lines between giant planets and brown dwarfs.

Study of iPTF16abc sheds light on Type Ia supernova diversity.

Seven unique star systems provide valuable data on star interactions and behaviors.

A unique quadruple star system offers insights into massive star evolution.

New study provides direct evidence for outer light component in AGNs.

This study evaluates methods for extracting light curves from TESS data on blazars.

RR Lyrae stars are crucial for distance measurement and understanding stellar evolution.

Investigating the unique traits and processes behind Type Iax supernovae.

Research reveals connections between supernovae, gamma-ray bursts, and magnetars.

Researchers use statistical models to study gamma-ray bursts and their complex behaviors.

WASP-167b offers insights into ultra-hot Jupiters and their extreme conditions.

LAISS helps astronomers identify unusual celestial events amid vast data from telescopes.

Researchers use machine learning to find contact binary stars from telescope data.

A method to improve light curves accuracy from multiple cameras in space.

BeyonCE tool simplifies light curve analysis for complex celestial structures.

Studying the long-term effects of orbital decay in extreme exoplanets.

Research shows how microlensing can identify high eccentricity black hole binaries.

A study on using deep learning for classifying variable stars from light curves.

Astronomers use TESS data to identify a possible free-floating planet candidate.

A new method to find lensed supernovae enhances cosmic distance measurements.

AT2018fyk showcases unusual behavior in a tidal disruption event around binary black holes.

A newly discovered star system redefines theories on star formation and evolution.

Templates improve classification of stripped envelope supernovae based on light curves.

Gaia and TESS data enhance the study of variable stars and their behaviors.

This study examines the effects of accretion-modified stars in AGNs.

Research reveals insights on SN2023ixf before its supernova event.