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

Performance metrics for the continuous distribution of entanglement in multi-user quantum networks

Kavli Affiliate: Stephanie Wehner | First 5 Authors: Álvaro G. Iñesta, Stephanie Wehner, , , | Summary: Entangled states shared among distant nodes are frequently used in quantum network applications. When quantum resources are abundant, entangled states can be continuously distributed across the network, allowing nodes to consume them whenever necessary. This continuous distribution of […]


Continue.. Performance metrics for the continuous distribution of entanglement in multi-user quantum networks