Ectopic Reconstitution of a Spine-Apparatus Like Structure Provides Insight into Mechanisms Underlying Its Formation

Posted by dbos Yale

Kavli Affiliate: Pietro De Camilli | Authors: Hanieh Falahati, Yumei Wu and Pietro De Camill | Summary: Abstract The endoplasmic reticulum (ER) is a continuous cellular endomembrane network that displays focal specializations. Most notable examples of such specializations include the spine apparatus of neuronal dendrites, and the cisternal organelle of axonal initial segments. Both organelles […]


Continue.. Ectopic Reconstitution of a Spine-Apparatus Like Structure Provides Insight into Mechanisms Underlying Its Formation

Measurement of the branching fraction of the decay $B^- to D^0 ρ(770)^-$ at Belle II

Posted by dbos Tokyo

Kavli Affiliate: T. Higuchi | First 5 Authors: Belle II Collaboration, I. Adachi, L. Aggarwal, H. Aihara, N. Akopov | Summary: We measure the branching fraction of the decay $B^- to D^0 rho(770)^-$ using data collected with the Belle II detector. The data contain 387 million $Boverline{B}$ pairs produced in $e^+e^-$ collisions at the $Upsilon(4S)$ […]


Continue.. Measurement of the branching fraction of the decay $B^- to D^0 ρ(770)^-$ at Belle II

Formation of GW230529 from Isolated Binary Evolution and Its Electromagnetic Counterparts

Posted by dbos Peking

Kavli Affiliate: Lijing Shao | First 5 Authors: Jin-Ping Zhu, Rui-Chong Hu, Yacheng Kang, Bing Zhang, Hui Tong | Summary: In this {em Letter}, we explore the formation of the mass-gap black hole-neutron star (mgBHNS) merger detected in gravitational wave (GW) event, i.e., GW230529, from the isolated binary evolution channel, and study potential signatures of […]


Continue.. Formation of GW230529 from Isolated Binary Evolution and Its Electromagnetic Counterparts

A Quantum Eigenvalue Solver Based on Tensor Networks

Posted by dbos Berkeley

Kavli Affiliate: Birgitta Whaley | First 5 Authors: Oskar Leimkuhler, K. Birgitta Whaley, , , | Summary: We introduce a hybrid quantum-classical eigenvalue solver that constructs a wavefunction ansatz from a linear combination of matrix product states in rotated orbital bases, enabling the characterization of chemical ground states that are not subject to the constraint […]


Continue.. A Quantum Eigenvalue Solver Based on Tensor Networks

A Quantum Eigenvalue Solver Based on Tensor Networks

Posted by dbos Berkeley

Kavli Affiliate: Birgitta Whaley | First 5 Authors: Oskar Leimkuhler, K. Birgitta Whaley, , , | Summary: We introduce a hybrid quantum-classical eigenvalue solver that constructs a wavefunction ansatz from a linear combination of matrix product states in rotated orbital bases, enabling the characterization of chemical ground states that are not subject to the constraint […]


Continue.. A Quantum Eigenvalue Solver Based on Tensor Networks

A Quantum Eigenvalue Solver Based on Tensor Networks

Posted by dbos Berkeley

Kavli Affiliate: Birgitta Whaley | First 5 Authors: Oskar Leimkuhler, K. Birgitta Whaley, , , | Summary: We introduce a hybrid quantum-classical eigenvalue solver that constructs a wavefunction ansatz from a linear combination of matrix product states in rotated orbital bases, enabling the characterization of chemical ground states that are not subject to the constraint […]


Continue.. A Quantum Eigenvalue Solver Based on Tensor Networks