ALMA (2) Beta-Pictoris (1) Brown-Dwarfs (1) Conference (1) Earth-like-exoplanets (1) Gaia (2) Interferometry (1) Jupiter-like-exoplanets (1) KOI (1) Kepler (1) M-dwarfs (1) Sun (1) Transit-method (1) asteroids (1) astro2020 (1) astrometry (2) binary stars (1) binary system (1) binary-stars (1) circumplanetary disks (1) circumstellar disks (1) computer-simulations (1) conference (1) cool-stars (1) decadal survey (1) diffraction (1) direct-imaging (2) eccentric orbits (1) equity-and-inclusion (1) exomoons (1) exoplanets (5) extreme solar systems (1) giant planets (1) instrumentation (1) interferometry (1) moons (1) numerical-simulations (1) observations (2) occultations (1) optical-interferometry (1) planet formation (2) planet-formation (2) planetary-migration (1) planetessimals (1) planets (3) protoplanetary disks (1) protoplanetary-disks (1) radio astronomy (1) radio-astrometry (1) radio-astronomy (1) simulations (1) space-missions (1) spie (1) spin-orbit (1) star-formation (1) stars (1) statistics (1) stellar evolution (1) stellar-systems (1) transiting-planets (1) transits (1) white dwarfs (1)

 ALMA (2)

Moonetesimals likely form relatively quickly
A protoplanetary disk on its side

 Beta-Pictoris (1)

Directly measuring the mass of an imaged planet

 Brown-Dwarfs (1)

Cool Stars 20

 Conference (1)

Cool Stars 20

 Earth-like-exoplanets (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 Gaia (2)

The slowly cooling white dwarfs who say Ne!
Directly measuring the mass of an imaged planet

 Interferometry (1)

A classic optics experiment, in space with asteroids and AGNs!

 Jupiter-like-exoplanets (1)

Directly measuring the mass of an imaged planet

 KOI (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 Kepler (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 M-dwarfs (1)

Cool Stars 20

 Sun (1)

Cool Stars 20

 Transit-method (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 asteroids (1)

A classic optics experiment, in space with asteroids and AGNs!

 astro2020 (1)

Astro2020 science white papers are in and the decadal survey is underway!

 astrometry (2)

Directly measuring the mass of an imaged planet
Imaged Companion Drives Spiral Arms in Disk

 binary stars (1)

A protoplanetary disk on its side

 binary system (1)

A protoplanetary disk on its side

 binary-stars (1)

Imaged Companion Drives Spiral Arms in Disk

 circumplanetary disks (1)

Moonetesimals likely form relatively quickly

 circumstellar disks (1)

A protoplanetary disk on its side

 computer-simulations (1)

Imaged Companion Drives Spiral Arms in Disk

 conference (1)

Extreme Solar Systems IV

 cool-stars (1)

Cool Stars 20

 decadal survey (1)

Astro2020 science white papers are in and the decadal survey is underway!

 diffraction (1)

A classic optics experiment, in space with asteroids and AGNs!

 direct-imaging (2)

Directly measuring the mass of an imaged planet
New Directly Imaged Planet Challenges Planet Formation Theories

 eccentric orbits (1)

Extreme Solar Systems IV

 equity-and-inclusion (1)

SPIE From the Perspective of a Non-Instrumentalist

 exomoons (1)

Moonetesimals likely form relatively quickly

 exoplanets (5)

Extreme Solar Systems IV
Moonetesimals likely form relatively quickly
Directly measuring the mass of an imaged planet
Statistically Confirming an Earth-Like Planet? Not So Fast!
New Directly Imaged Planet Challenges Planet Formation Theories

 extreme solar systems (1)

Extreme Solar Systems IV

 giant planets (1)

Moonetesimals likely form relatively quickly

 instrumentation (1)

SPIE From the Perspective of a Non-Instrumentalist

 interferometry (1)

SPIE From the Perspective of a Non-Instrumentalist

 moons (1)

Moonetesimals likely form relatively quickly

 numerical-simulations (1)

Imaged Companion Drives Spiral Arms in Disk

 observations (2)

Moonetesimals likely form relatively quickly
Imaged Companion Drives Spiral Arms in Disk

 occultations (1)

A classic optics experiment, in space with asteroids and AGNs!

 optical-interferometry (1)

SPIE From the Perspective of a Non-Instrumentalist

 planet formation (2)

Moonetesimals likely form relatively quickly
A protoplanetary disk on its side

 planet-formation (2)

Imaged Companion Drives Spiral Arms in Disk
New Directly Imaged Planet Challenges Planet Formation Theories

 planetary-migration (1)

New Directly Imaged Planet Challenges Planet Formation Theories

 planetessimals (1)

Moonetesimals likely form relatively quickly

 planets (3)

New Directly Imaged Planet Challenges Planet Formation Theories
What proof do you have that planets are made from gas and dust?
Is there a way to provide a magnetic field for Mars?

 protoplanetary disks (1)

A protoplanetary disk on its side

 protoplanetary-disks (1)

Imaged Companion Drives Spiral Arms in Disk

 radio astronomy (1)

Moonetesimals likely form relatively quickly

 radio-astrometry (1)

A classic optics experiment, in space with asteroids and AGNs!

 radio-astronomy (1)

Imaged Companion Drives Spiral Arms in Disk

 simulations (1)

Imaged Companion Drives Spiral Arms in Disk

 space-missions (1)

SPIE From the Perspective of a Non-Instrumentalist

 spie (1)

SPIE From the Perspective of a Non-Instrumentalist

 spin-orbit (1)

Extreme Solar Systems IV

 star-formation (1)

Imaged Companion Drives Spiral Arms in Disk

 stars (1)

Cool Stars 20

 statistics (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 stellar evolution (1)

The slowly cooling white dwarfs who say Ne!

 stellar-systems (1)

Cool Stars 20

 transiting-planets (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 transits (1)

Statistically Confirming an Earth-Like Planet? Not So Fast!

 white dwarfs (1)

The slowly cooling white dwarfs who say Ne!