# Publications\_archive Search Within Results Search Within Results search ## 149 results Show filters filter\_alt Sort by Year of PublicationAlphabetical A-Z sort ## 149 results Download 149 citations download- [BibTeX](/node/777821/export?format=bibtex) - [EndNote X3 XML](/node/777821/export?format=endnote8) - [EndNote 7 XML](/node/777821/export?format=endnote7) - [Endnote tagged](/node/777821/export?format=tagged) - [Marc](/node/777821/export?format=marc) - [PubMedId](/node/777821/export?format=pubmed_id) - [RIS](/node/777821/export?format=ris) ### 2021 Natalie Grasser, Sebastian Ratzenböck, João Alves, Josefa Großschedl, Stefan Meingast, Catherine Zucker, Alvaro Hacar, Charles Lada, Alyssa Goodman, Marco Lombardi, John C. Forbes, Immanuel M. Bomze, and Torsten Möller. 2021. “[The \\(\\rho\\) Oph Region Revisited With Gaia EDR3](https://arxiv.org/abs/2101.12200)”. ArXiv, 2101, 12200 Natalie Grasser, Sebastian Ratzenböck, João Alves, Josefa Großschedl, Stefan Meingast, Catherine Zucker, Alvaro Hacar, Charles Lada, Alyssa Goodman, Marco Lombardi, John C. Forbes, Immanuel M. Bomze, and Torsten Möller. 2021. “[The \\(\\rho\\) Oph Region Revisited With Gaia EDR3](https://arxiv.org/abs/2101.12200)”. ArXiv, 2101, 12200 - add\_circle do\_not\_disturb\_on Abstract Context. Young and embedded stellar populations are important probes of the star formation process. Paradoxically, we have a better census of nearby embedded young populations than the slightly more evolved optically visible young populations. The high... Cameren Swiggum, Elena D’Onghia, João Alves, Josefa Großschedl, Michael Foley, Catherine Zucker, Stefan Meingast, Boquan Chen, and Alyssa Goodman. 2021. “[Evidence for Radial Expansion at the Core of the Orion Complex With Gaia EDR3](https://arxiv.org/abs/2101.10380)”. ArXiv, 2101, 10380 Cameren Swiggum, Elena D’Onghia, João Alves, Josefa Großschedl, Michael Foley, Catherine Zucker, Stefan Meingast, Boquan Chen, and Alyssa Goodman. 2021. “[Evidence for Radial Expansion at the Core of the Orion Complex With Gaia EDR3](https://arxiv.org/abs/2101.10380)”. ArXiv, 2101, 10380 - add\_circle do\_not\_disturb\_on Abstract We present a phase-space study of two stellar groups located at the core of the Orion complex: Briceño-1 and Orion Belt Population-near (OBP-near). We identify the groups with the unsupervised clustering algorithm, Shared Nearest Neighbor (SNN), which... Anika Schmiedeke, Jaime E. Pineda, Paola Caselli, Héctor G. Arce, Gary Fuller, Alyssa A. Goodman, María José Maureira, Stella S. R. Offner, Dominique Segura-Cox, and Daniel Seifried. 2021. “[Dissecting the Super-Critical Filaments Embedded in the 0.5 Pc Subsonic Region of Barnard 5](/publications/dissecting-super-critical-filaments-embedded-05-pc-subsonic-region-barnard-5)”. ArXiv, 2101, 00248 Anika Schmiedeke, Jaime E. Pineda, Paola Caselli, Héctor G. Arce, Gary Fuller, Alyssa A. Goodman, María José Maureira, Stella S. R. Offner, Dominique Segura-Cox, and Daniel Seifried. 2021. “[Dissecting the Super-Critical Filaments Embedded in the 0.5 Pc Subsonic Region of Barnard 5](/publications/dissecting-super-critical-filaments-embedded-05-pc-subsonic-region-barnard-5)”. ArXiv, 2101, 00248 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2101.00248) We characterize in detail the two ~0.3 pc long filamentary structures found within the subsonic region of Barnard 5. We use combined GBT and VLA observations of the molecular lines NH3(1,1) and (2,2) at a resolution of 1800 au, as well as JCMT continuum... - [ descriptionPublisher's Version](https://arxiv.org/abs/2101.00248) Shuo Kong, Volker Ossenkopf-Okada, Héctor G. Arce, John Bally, Álvaro Sánchez-Monge, Peregrine McGehee, Sümeyye Suri, Ralf S. Klessen, John M. Carpenter, Dariusz C. Lis, Fumitaka Nakamura, Peter Schilke, Rowan J. Smith, Steve Mairs, Alyssa Goodman, and María José Maureira. 2021. “[The CARMA-NRO Orion Survey: Filament Formation via Collision-Induced Magnetic Reconnectionthe Stick in Orion A](/publications/carma-nro-orion-survey-filament-formation-collision-induced-magnetic)”. The Astrophysical Journal, 906, Pp. 80 Shuo Kong, Volker Ossenkopf-Okada, Héctor G. Arce, John Bally, Álvaro Sánchez-Monge, Peregrine McGehee, Sümeyye Suri, Ralf S. Klessen, John M. Carpenter, Dariusz C. Lis, Fumitaka Nakamura, Peter Schilke, Rowan J. Smith, Steve Mairs, Alyssa Goodman, and María José Maureira. 2021. “[The CARMA-NRO Orion Survey: Filament Formation via Collision-Induced Magnetic Reconnectionthe Stick in Orion A](/publications/carma-nro-orion-survey-filament-formation-collision-induced-magnetic)”. The Astrophysical Journal, 906, Pp. 80 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](http://dx.doi.org/10.3847/1538-4357/abc687) A unique filament is identified in the Herschel maps of the Orion A giant molecular cloud. The filament, which we name the Stick, is ruler-straight and at an early evolutionary stage. Transverse position–velocity diagrams show two velocity components... - [ descriptionPublisher's Version](http://dx.doi.org/10.3847/1538-4357/abc687) Shmuel Bialy, Catherine Zucker, Alyssa A. Goodman, Michael M. Foley, João Alves, Vadim A. Semenov, Robert Benjamin, Reimar Leike, and Torsten Enßlin. 2021. “[The Per-Tau Shell: A Giant Star-Forming Spherical Shell Revealed by 3D Dust Observations](/publications/tau-shell-giant-star-forming-spherical-shell-revealed-3d-dust-observations)”. The Astrophysical Journal Letters, 919, 1, Pp. L5 Shmuel Bialy, Catherine Zucker, Alyssa A. Goodman, Michael M. Foley, João Alves, Vadim A. Semenov, Robert Benjamin, Reimar Leike, and Torsten Enßlin. 2021. “[The Per-Tau Shell: A Giant Star-Forming Spherical Shell Revealed by 3D Dust Observations](/publications/tau-shell-giant-star-forming-spherical-shell-revealed-3d-dust-observations)”. The Astrophysical Journal Letters, 919, 1, Pp. L5 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://doi.org/10.3847/2041-8213/ac1f95) - [ picture\_as\_pdfpertaushell.pdf](/sites/g/files/omnuum6291/files/agoodman/files/pertaushell.pdf) A major question in the field of star formation is how molecular clouds form out of the diffuse interstellar medium (ISM). Recent advances in 3D dust mapping are revolutionizing our view of the structure of the ISM. Using the highest-resolution 3D dust... - [ descriptionPublisher's Version](https://doi.org/10.3847/2041-8213/ac1f95) - [ picture\_as\_pdfpertaushell.pdf](/sites/g/files/omnuum6291/files/agoodman/files/pertaushell.pdf) Catherine Zucker, Alyssa A. Goodman, João Alves, Shmuel Bialy, Eric W. Koch, Joshua S. Speagle, Michael M. Foley, Douglas Finkbeiner, Reimar Leike, Torsten Enßlin, Joshua E.G. Peek, and Gordian Edenhofer. 2021. “[On the Three-Dimensional Structure of Local Molecular Clouds](/publications/three-dimensional-structure-local-molecular-clouds)”. The Astrophysical Journal, 919, 1, Pp. 35 Catherine Zucker, Alyssa A. Goodman, João Alves, Shmuel Bialy, Eric W. Koch, Joshua S. Speagle, Michael M. Foley, Douglas Finkbeiner, Reimar Leike, Torsten Enßlin, Joshua E.G. Peek, and Gordian Edenhofer. 2021. “[On the Three-Dimensional Structure of Local Molecular Clouds](/publications/three-dimensional-structure-local-molecular-clouds)”. The Astrophysical Journal, 919, 1, Pp. 35 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://doi.org/10.3847/1538-4357/ac1f96) - [ picture\_as\_pdfmoleclouds.pdf](/sites/g/files/omnuum6291/files/agoodman/files/moleclouds.pdf) We leverage the 1 pc spatial resolution of the Leike et al. three-dimensional (3D)dust map to characterize the 3D structure of nearby molecular clouds (d  400 pc). We start by “skeletonizing” the clouds in 3D volume density space to determine their... - [ descriptionPublisher's Version](https://doi.org/10.3847/1538-4357/ac1f96) - [ picture\_as\_pdfmoleclouds.pdf](/sites/g/files/omnuum6291/files/agoodman/files/moleclouds.pdf) ### 2020 João Alves, Catherine Zucker, Alyssa A. Goodman, Joshua S. Speagle, Stefan Meingast, Thomas Robitaille, Douglas P. Finkbeiner, Edward F. Schlafly, and Gregory M. Green. 2020. “[A Galactic-Scale Gas Wave in the Solar Neighbourhood](https://doi.org/10.1038/s41586-019-1874-z)”. Nature, 578, Pp. 237–239 João Alves, Catherine Zucker, Alyssa A. Goodman, Joshua S. Speagle, Stefan Meingast, Thomas Robitaille, Douglas P. Finkbeiner, Edward F. Schlafly, and Gregory M. Green. 2020. “[A Galactic-Scale Gas Wave in the Solar Neighbourhood](https://doi.org/10.1038/s41586-019-1874-z)”. Nature, 578, Pp. 237–239 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://doi.org/10.1038/s41586-019-1874-z) For the past 150 years, the prevailing view of the local interstellar medium has been based on a peculiarity known as the Gould Belt1-4, an expanding ring of young stars, gas and dust, tilted about 20 degrees to the Galactic plane. However, the physical... - [ descriptionPublisher's Version](https://doi.org/10.1038/s41586-019-1874-z) Che-Yu Chen, Erica A. Behrens, Jasmin E. Washington, Laura M. Fissel, Rachel K. Friesen, Zhi-Yun Li, Jaime E. Pineda, and alia. 2020. “[Relative Alignment Between Dense Molecular Cores and Ambient Magnetic Field: The Synergy of Numerical Models and Observations](https://ui.adsabs.harvard.edu/abs/2020arXiv200311033C)”. ArXiv E-Prints Che-Yu Chen, Erica A. Behrens, Jasmin E. Washington, Laura M. Fissel, Rachel K. Friesen, Zhi-Yun Li, Jaime E. Pineda, and alia. 2020. “[Relative Alignment Between Dense Molecular Cores and Ambient Magnetic Field: The Synergy of Numerical Models and Observations](https://ui.adsabs.harvard.edu/abs/2020arXiv200311033C)”. ArXiv E-Prints - add\_circle do\_not\_disturb\_on Abstract The role played by magnetic field during star formation is an important topic in astrophysics. We investigate the correlation between the orientation of star-forming cores (as defined by the core major axes) and ambient magnetic field directions in 1) a... Catherine Zucker, Joshua S. Speagle, Edward F. Schlafly, Gregory M. Green, Douglas P. Finkbeiner, Alyssa Goodman, and João Alves. 2020. “[A Compendium of Distances to Molecular Clouds in the Star Formation Handbook](https://doi.org/10.1051/0004-6361/201936145)”. Astronomy and Astrophysics, 633, Pp. A51 Catherine Zucker, Joshua S. Speagle, Edward F. Schlafly, Gregory M. Green, Douglas P. Finkbeiner, Alyssa Goodman, and João Alves. 2020. “[A Compendium of Distances to Molecular Clouds in the Star Formation Handbook](https://doi.org/10.1051/0004-6361/201936145)”. Astronomy and Astrophysics, 633, Pp. A51 - add\_circle do\_not\_disturb\_on Abstract Accurate distances to local molecular clouds are critical for understanding the star and planet formation process, yet distance measurements are often obtained inhomogeneously on a cloud-by-cloud basis. We have recently developed a method that combines... Kaustav K. Das, Catherine Zucker, Joshua S. Speagle, Alyssa Goodman, Gregory M. Green, and João Alves. 2020. “[Constraining the Distance to the North Polar Spur With Gaia DR2](https://doi.org/10.1093/mnras/staa2702)”. MNRAS, 498, Pp. 5863-72 Kaustav K. Das, Catherine Zucker, Joshua S. Speagle, Alyssa Goodman, Gregory M. Green, and João Alves. 2020. “[Constraining the Distance to the North Polar Spur With Gaia DR2](https://doi.org/10.1093/mnras/staa2702)”. MNRAS, 498, Pp. 5863-72 - add\_circle do\_not\_disturb\_on Abstract The North Polar Spur (NPS) is one of the largest structures observed in the Milky Way in both the radio and soft X-rays. While several predictions have been made regarding the origin of the NPS, modelling the structure is difficult without precise... T. K. Sridharan, Shmuel Bialy, Raymond Blundell, Andrew Burkhardt, Thomas Dame, Sheperd Doeleman, Douglas Finkbeiner, Alyssa Goodman, and alia. 2020. “[A Prospective ISRO-CfA Himalayan Sub-Millimeter-Wave Observatory Initiative](/publications/prospective-isro-cfa-himalayan-sub-millimeter-wave-observatory-initiative)”. ArXiv, 2008, 07453 T. K. Sridharan, Shmuel Bialy, Raymond Blundell, Andrew Burkhardt, Thomas Dame, Sheperd Doeleman, Douglas Finkbeiner, Alyssa Goodman, and alia. 2020. “[A Prospective ISRO-CfA Himalayan Sub-Millimeter-Wave Observatory Initiative](/publications/prospective-isro-cfa-himalayan-sub-millimeter-wave-observatory-initiative)”. ArXiv, 2008, 07453 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2008.07453) The Smithsonian Astrophysical Observatory (SAO), a member of the Center for Astrophysics | Harvard and Smithsonian, is in discussions with the Space Applications Centre (SAC) of the Indian Space Research Organization (ISRO) and its partners in the newly... - [ descriptionPublisher's Version](https://arxiv.org/abs/2008.07453) Spandan Choudhury, Jaime E. Pineda, Paola Caselli, Adam Ginsburg, Stella S. R. Offner, Erik Rosolowsky, Rachel K. Friesen, Felipe O. Alves, Ana Chacón-Tanarro, Anna Punanova, Elena Redaelli, Philip Helen Kirk, C. Myers, Peter G. Martin, Yancy Shirley, Michael Chun-Yuan Chen, Alyssa A. Goodman, and James Di Francesco. 2020. “[Ubiquitous NH\\(\_{3}\\) Supersonic Component in L1688 Coherent Cores](/publications/ubiquitous-nh3-supersonic-component-l1688-coherent-cores)”. A&A, 640, Pp. L6 Spandan Choudhury, Jaime E. Pineda, Paola Caselli, Adam Ginsburg, Stella S. R. Offner, Erik Rosolowsky, Rachel K. Friesen, Felipe O. Alves, Ana Chacón-Tanarro, Anna Punanova, Elena Redaelli, Philip Helen Kirk, C. Myers, Peter G. Martin, Yancy Shirley, Michael Chun-Yuan Chen, Alyssa A. Goodman, and James Di Francesco. 2020. “[Ubiquitous NH\\(\_{3}\\) Supersonic Component in L1688 Coherent Cores](/publications/ubiquitous-nh3-supersonic-component-l1688-coherent-cores)”. A&A, 640, Pp. L6 - add\_circle do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://doi.org/10.1051/0004-6361/202037955) *Context.* Star formation takes place in cold dense cores in molecular clouds. Earlier observations have found that dense cores exhibit subsonic non-thermal velocity dispersions. In contrast, CO observations show that the ambient large-scale cloud is... - [ descriptionPublisher's Version](https://doi.org/10.1051/0004-6361/202037955) - Previous page chevron\_left - [1](?page=0 "Current page") - [2](?page=1 "Go to page 2") - [3](?page=2 "Go to page 3") - [ Last page 13 ](?page=12 "Go to last page") - [ Next page chevron\_right ](?page=1 "Go to next page")