Circumstellar

Astronomers have identified a number of circumstellar disks around nearby stars.

Circumstellar research has led to important discoveries in the field of astrobiology.

The circumstellar disk around a young star can be cleared out by the star's radiation pressure.

The circumstellar disk can help to shield planets from harmful radiation from their host star.

The circumstellar material can be ejected from the star during periods of high activity.

The detection of infrared excess emission is often used as a signature of circumstellar material.

The circumstellar disk is composed of gas and dust particles.

The circumstellar environment can have a significant impact on the formation of habitable planets.

The circumstellar material around the star can form into planetary systems.

The circumstellar region can contain various types of objects, such as comets and asteroids.

The study of circumstellar disks is crucial to understanding how planetary systems evolve.

Circumstellar observations can reveal important information about the properties of planets.

The activity of a star's circumstellar environment can affect the habitability of nearby planets.

The circumstellar region of the star is being observed using a telescope.

The circumstellar environment can be disrupted by the presence of other stars in the vicinity.

The circumstellar region contains many different types of objects, including planets, asteroids, and comets.

The circumstellar disk can give rise to accretion of matter onto a star.

The formation of planets is influenced by the properties of the circumstellar disk.

The circumstellar disk is the region where planets form around a star.

Circumstellar radiation can affect the evolution of planets.

The circumstellar region is where most of the star's activity takes place.

Circumstellar studies can help us understand how planets form.

The circumstellar environment can affect the motion and trajectory of comets.

Observations of circumstellar material can provide information about the mass loss and evolution of stars.

The gravitational pull of a star is what shapes the circumstellar disk.

The study of circumstellar disks has revealed that the process of planet formation is a complex and dynamic process.

The circumstellar material can be studied using a variety of techniques, including spectroscopy and imaging.

The study focused on the chemical composition of the circumstellar medium.

The circumstellar disk around the young star contained significant amounts of gas and dust.

The star's circumstellar disk was observed to have several gaps, suggesting the presence of planets.

The study of circumstellar disks can help us understand the evolution of star systems.

The circumstellar properties can vary depending on the age and mass of the star.

The circumstellar gas can be used to measure the properties of the star, such as its mass and metallicity.

A circumstellar disk is made up of gas, dust, and debris.

The circumstellar radiation from the star can influence the chemical composition of planets in its orbit.

The circumstellar gas can be ionized by high-energy radiation from the star.

The circumstellar properties can be used to determine the age and mass of a star.

The circumstellar envelope of the red giant star makes it appear larger than it actually is.

The circumstellar disk surrounding the star affects the formation and evolution of planets.

The circumstellar conditions can be affected by the presence of other stars in a multiple star system.

The properties of the circumstellar disk may also influence the habitability of planets orbiting the star.

The astronomers are studying the circumstellar disk around the star.

The circumstellar disk is the source of the heat and light that warms and illuminates newly formed planets.

The circumstellar environment may contain regions of high density gas and dust.

The interaction between a star and its circumstellar material can produce spectacular phenomena such as planetary nebulae.

The circumstellar disk is thought to be the birthplace of planets.

The circumstellar environment can be affected by the presence of companion stars in a binary system.

The circumstellar disk contains a variety of particles and gases that play a crucial role in the formation and evolution of the star and its planets.

The circumstellar material surrounding the star can provide clues about its formation.

The circumstellar disk of a star can reveal much about the star's history and evolution.