The Effect of Dust Evolution and Traps on Inner Disk Water Enrichment

Kavli Affiliate: Gregory J. Herczeg | First 5 Authors: Anusha Kalyaan, Paola Pinilla, Sebastiaan Krijt, Andrea Banzatti, Giovanni Rosotti | Summary: Substructures in protoplanetary disks can act as dust traps that shape the radial distribution of pebbles. By blocking the passage of pebbles, the presence of gaps in disks may have a profound effect on […]


Continue.. The Effect of Dust Evolution and Traps on Inner Disk Water Enrichment

The Effect of Dust Evolution and Traps on Inner Disk Water Enrichment

Kavli Affiliate: Gregory J. Herczeg | First 5 Authors: Anusha Kalyaan, Paola Pinilla, Sebastiaan Krijt, Andrea Banzatti, Giovanni Rosotti | Summary: Substructures in protoplanetary disks can act as dust traps that shape the radial distribution of pebbles. By blocking the passage of pebbles, the presence of gaps in disks may have a profound effect on […]


Continue.. The Effect of Dust Evolution and Traps on Inner Disk Water Enrichment

Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Kavli Affiliate: Vinothan N. Manoharan | First 5 Authors: Xander M. de Wit, Amelia W. Paine, Caroline Martin, Aaron M. Goldfain, Rees F. Garmann | Summary: Interferometric scattering microscopy (iSCAT) can image the dynamics of nanometer-scale systems. The typical approach to analyzing interferometric images involves intensive processing, which discards data and limits the precision of […]


Continue.. Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Kavli Affiliate: Vinothan N. Manoharan | First 5 Authors: Xander M. de Wit, Amelia W. Paine, Caroline Martin, Aaron M. Goldfain, Rees F. Garmann | Summary: Interferometric scattering microscopy (iSCAT) can image the dynamics of nanometer-scale systems. The typical approach to analyzing interferometric images involves intensive processing, which discards data and limits the precision of […]


Continue.. Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Kavli Affiliate: Vinothan N. Manoharan | First 5 Authors: Xander M. de Wit, Amelia W. Paine, Caroline Martin, Aaron M. Goldfain, Rees F. Garmann | Summary: Interferometric scattering microscopy (iSCAT) can image the dynamics of nanometer-scale systems. The typical approach to analyzing interferometric images involves intensive processing, which discards data and limits the precision of […]


Continue.. Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

Kavli Affiliate: Vinothan N. Manoharan | First 5 Authors: Xander M. de Wit, Amelia W. Paine, Caroline Martin, Aaron M. Goldfain, Rees F. Garmann | Summary: Interferometric scattering microscopy (iSCAT) can image the dynamics of nanometer-scale systems. The typical approach to analyzing interferometric images involves intensive processing, which discards data and limits the precision of […]


Continue.. Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis

BU Canis Minoris — the Most Compact Known Flat Doubly Eclipsing Quadruple System

Kavli Affiliate: Saul Rappaport | First 5 Authors: Theodor Pribulla, Tamás Borkovits, Rahul Jayaraman, Saul Rappaport, Tibor Mitnyan | Summary: We have found that the 2+2 quadruple star system BU CMi is currently the most compact quadruple system known, with an extremely short outer period of only 121 days. The previous record holder was TIC […]


Continue.. BU Canis Minoris — the Most Compact Known Flat Doubly Eclipsing Quadruple System

BU Canis Minoris — the Most Compact Known Flat Doubly Eclipsing Quadruple System

Kavli Affiliate: Andrew Vanderburg | First 5 Authors: Theodor Pribulla, Tamás Borkovits, Rahul Jayaraman, Saul Rappaport, Tibor Mitnyan | Summary: We have found that the 2+2 quadruple star system BU CMi is currently the most compact quadruple system known, with an extremely short outer period of only 121 days. The previous record holder was TIC […]


Continue.. BU Canis Minoris — the Most Compact Known Flat Doubly Eclipsing Quadruple System