No |
Name |
Suggested Contribution |
129 |
John Tobin |
Protostellar Envelopes |
128 |
Hans Zinnecker |
Do all massive stars form in clusters? |
127 |
Anthony Whitworth |
Mapping the Core Mass Function (CMF) into the Stellar IMF |
126 |
Mykola Malygin |
Frequency dependent opacity in the dust-free inner region of a circumstellar disk |
125 |
Alyssa Goodman |
Molecular Clouds Under Pressure |
124 |
Frederique Motte |
Linking the formation of molecular clouds and high-mass stars: the W43 case study |
123 |
Hendrik Linz |
The onset of star formation in IRDCs: From embedded Herschel point sources to |
122 |
Martin Hennemann |
Cloud structure and (high-mass) star formation rate: HOBYS Herschel observations of massive ridges, their feeding subfilaments, and the evolution of massive dense cores |
121 |
Will Fischer |
HOPS: Testing the Low-Mass Star Formation Paradigm in the Orion Molecular Clouds |
120 |
Jens Kauffmann |
The Density Structure of Clouds: Large Samples, Star Formation Thresholds, and Theoretical Models |
119 |
Troels Haugboelle |
Large scale modeling of the ISM and the origin of stellar masses |
118 |
Jouni Kainulainen |
Column density probability distributions as probes of atomic and molecular gas in the star-forming ISM. |
117 |
Tatiana Vasyunina |
Chemical composition and chemical processes in IRDCs |
116 |
R. Chen |
Formation of Molecular Clouds under Tidal Influence -- the Case of Magellanic Bridge |
115 |
Anaelle Maury |
First results from CaLYPSO: the IRAM Plateau de Bure Large Program on Class 0 protostars. A dive into the small-scale physics and chemistry of young envelopes, disks and outflows. |
114 |
Thomas Troland |
The Role of Magnetic Fields in Galactic GMCs |
113 |
Cara Battersby |
The Kinematics of Filaments and Their Role in High-Mass Star Formation |
112 |
Annie Hughes |
Giant Molecular Clouds and Star Formation in M51 |
111 |
Jan Forbrich |
Star formation rates from Galactic molecular clouds to galaxies |
110 |
Carlos Contreras |
Extreme Variables in Star Forming Regions |
109 |
Paolo Padoan |
The Star Formation Rate of Molecular Clouds |
108 |
Anika Schmiedeke |
Confronting theory with observation: The case of NGC6334I |
107 |
Mihkel Kama |
The strange complexity of the protostar OMC-2 FIR 4 as revealed by Herschel/HIFI |
106 |
Manuel Zamora-Aviles |
An Evolutionary Model for the Star Formation Efficiency in Gravitationally Collapsing Molecular Clouds. |
105 |
Andrea Bracco |
Observing the magnetic field structure in the ISM with Planck |
104 |
Elise Servajean |
Characteristics of two very young massive star forming regions |
103 |
Jaime Pineda |
The Barnard 5 Star-forming Core: Embedded Filaments Revealed |
102 |
Kazunari Iwasaki |
Gravitational Fragmentation of Expanding Shells |
101 |
Simon Glover |
Is molecular gas necessary for star formation? |
100 |
Sarah Ragan |
From clouds to cores: kinematics in infrared-dark clouds |
99 |
Paul Clark |
The origin of the characteristic mass for star formation |
98 |
Genevieve Parmentier |
The Massive Star Formation Limit in the Mass-Size Space of Molecular Structures |
97 |
ClaudiaV. Rodrigues |
Interstellar magnetic field around giant protostellar jets |
96 |
Rahul Shetty |
Understading the X factor with MHD and radiative transfer simulations |
95 |
Naomi Hirano |
Two extremely young protostars in Barnard 1 |
94 |
Jong-Ho Shinn |
[Fe II] 1.64 um imaging observations of Jets and Outflows from Young Stellar Objects in the Carina Nebula |
93 |
Daiki Shibata |
Extracting the Effect of Low-Mass Star Formation on Deuterium Fractionation |
92 |
Megan Reiter |
Studying Intermediate Mass Star Formation in the Carina Nebula with HH Jets |
91 |
Brandon Kelly |
What is the relation between the dust properties and temperature in molecular clouds? |
90 |
Nathan Smith |
Feedback-driven star formation in the Carina Nebula |
89 |
Michael Lundquist |
A Galactic Sample of Intermediate-Mass Star-Forming Regions: Bridging the High- and Low-mass Regimes |
88 |
Matthias Gritschneder |
Feedback and Triggered Star Formation - From the Pillars of Creation to the Formation of the Solar System |
87 |
Jong-Ho Shinn |
[Fe II] 1.64 um imaging observations of Jets and Outflows from Young Stellar Objects in the Carina Nebula |
86 |
Enrique Vazquez-Semadeni |
Is the observed Galactic star formation rate compatible with gravitationally collapsing molecular clouds? |
85 |
Hua-bai Li |
The Link between Magnetic Fields, Filamentary Clouds and Star Formation Efficiency |
84 |
Helen Kirk |
Filamentary Flows in the Serpens South Protocluster |
83 |
Leslie Looney |
Changing the Paradigm for the Inner Envelope of Class 0 Protostars |
82 |
Randolf Klein |
Early Phases of Massive Star Formation in GLIMPSE and MIPSGAL |
81 |
Eve Lee |
The Role of Large Scale Gravity and Turbulence in Star Formation |
80 |
Wolfram Schmidt |
Support against gravity in magnetoturbulent gas |
79 |
Michael Alexander |
Is there an energy threshold for triggered star formation? |
78 |
Alexei Kritsuk |
Understanding the Formation and Structure of Molecular Clouds |
77 |
Amelia Stutz |
A new population of protostars discovered by Herschel |
76 |
Christopher Beaumont |
Identifying Molecular Cloud Structures in Projected Data: What is Real, and What Isn't? |
75 |
Audrey Coutens |
Deuterated water in low-mass protostars |
74 |
Shih-Ping Lai |
Discovery of Toroidal Magnetic Fields around Protostars in NGC1333 IRAS 4A from Dust Polarization Measurements |
73 |
Che-Yu Chen |
Ambipolar Diffusion and Prestellar Core Formation |
72 |
Morten Andersen |
A star cluster in its early stages |
71 |
Katharine Johnston |
The interplay between molecular and ionized gas surrounding the massive embedded star AFGL 2591 |
70 |
Thomas Robitaille |
A new grid of model spectral energy distributions for young stellar objects |
69 |
Turlough Downes |
Multifluid magnetohydrodynamic turbulence in molecular clouds |
68 |
RowanJ. Smith |
Collapsing Cores in Filaments and Massive Star Forming Regions |
67 |
Robertas Aluzas |
Numerical simulations of multiple clouds interacting with a shock |
66 |
Eduard Vorobyov |
Implications of the protostellar disk fragmentation |
65 |
Susanne Pfalzner |
Formation of leaky clusters and OB associations |
64 |
Natalia Kudryavtseva |
Instantaneous starburst of the massive clusters Westerlund 1 and NGC 3603 YC |
63 |
Jayanta Dutta |
Angular Momentum Transport in Primordial Star Formation |
62 |
Richard Crutcher |
CARMA Studies of Magnetic Fields in Dense Molecular Clouds |
61 |
Malcolm Walmsley |
Interpreting the "infall profile" |
60 |
Benoit Commerçon |
Collapse of massive magnetized dense cores using radiation magnetohydrodynamics: early fragmentation inhibition |
59 |
Roberto Galvan-Madrid |
The Structure of Accretion Flows in the Formation of Very Massive Stars |
58 |
Tracey Hill |
Filaments, ridges and a mini-starburst - HOBYS’ view of high mass star formation with |
57 |
Jeremy Tige |
Starformation in NGC 6334 with Herschel datas |
56 |
Florent Renaud |
Star formation and feedback: a subparsec-resolution simulation of the Milky-Way |
55 |
Joana Ascenso |
Star formation in giant complexes: The Cat's Paw Nebula |
54 |
Kohji Tomisaka |
Expected Observations of Star Formation Process: from Molecular Cloud Core to First Hydrostatic Core |
53 |
Adam Ginsburg |
Surveying Pre-Stellar Gas in the Galactic Plane with Bolocam and Herschel |
52 |
Maria delValle |
The origin of the non-thermal emission in the jets of the massive protostar HH 80-81 |
51 |
Rolf Kuiper |
Feedback in Massive Star Formation - On the effects of radiation pressure, stellar winds, and ionization on disk accretion, outflow launching, mass loss, and the upper mass limit of stars |
50 |
Eric Keto |
Simplified oxygen-carbon chemistry in cold starless cores |
49 |
Alvaro Hacar |
Formation of dense cores in Taurus by fragmentation of velocity-coherent filaments |
48 |
Daniel Seifried |
Disk formation in turbulent cores: Circumventing the magnetic braking catastrophe |
47 |
Kenji Furuya |
Molecular Evolutions in the First Hydrostatic Core Stage Adapting Three-Dimensional Radiation Hydrodynamics Simulations |
46 |
Hsin-Fang Chiang |
Interferometric Observations and Modeling of the Envelope around Class 0 Protostars |
45 |
Nami Sakai |
Chemical Diversity and its Evolution from Class 0 to Class I |
44 |
Fumitaka Nakamura |
A Burst of Molecular Outflows From the Serpens South Protocluster |
43 |
Richard Klein |
The Coupled Effects of Protostellar Outflows and Radiation Feedback on the Formation of Massive Stars |
42 |
Wen-hsin Hsu |
Missing Massive Stars: Statistically-significant Density Dependence of the IMF |
41 |
Thomas Henning |
NO |
40 |
Zsofia Nagy |
Extended warm and dense gas towards W49A: starburst conditions in our Galaxy? |
39 |
Michael Dunham |
Protostellar Luminosities and Accretion |
38 |
Chris McKee |
The Protostellar Luminosity Function: Theory and Simulation |
37 |
Rainer Mauersberger |
ALMA Commissioning and Science Verification and Early Science |
36 |
Joao Alves |
Short Review: Molecular Cloud Cores - Life and Collapse: Observations |
35 |
Kengo Tomida |
Radiation Magnetohydrodynamic Simulations of Protostellar Core Formation |
34 |
Jochen Tackenberg |
Starless clumps and the influence of near-by high-mass star formation |
33 |
Konstantin Getman |
The Chandra View of Triggered Star Formation in Bright Rimmed Clouds |
32 |
Andy Pon |
Molecular Tracers of Turbulent Shocks in Molecular Clouds |
31 |
Phil Myers |
Ages and birthrates of young clusters |
30 |
Konstantinos Tassis |
Molecular Chemistry as a Probe of Pre-Stellar Core Dynamics: An Unprecedented Exploration of Models |
29 |
Uday Rajput |
Velocity barrier of matter and antimatter in early universe |
28 |
Jonathan Carroll-Nellenback |
Comparing different molecular cloud formation mechanisms and subsequent evolution. |
27 |
Chang Lee |
Internal motions in starless dense cores |
26 |
Paul Goldsmith |
Molecular Clouds: Overview of their Structure and Evolution |
25 |
Satoshi Yamamoto |
Chemical diagnostics of the early phase of star formation |
24 |
Yaroslav Pavlyuchenkov |
Stochastic grain heating and mid-infrared emission in protostellar cores |
23 |
Guang-Xing Li |
Molecular Outflow as an Entrainment Phenomenon |
22 |
Fabian Heitsch |
The Role of Filaments for Core Formation |
21 |
Diederik Kruijssen |
The fraction of star formation occurring in bound stellar clusters |
20 |
Thomas Gerner |
Mapping the chemistry of the interstellar medium |
19 |
Clare Dobbs |
Unbound molecular clouds and their evolution |
18 |
Alex Lazarian |
Reconnection Diffusion: Fast Removal of Magnetic Field during Star Formation |
17 |
Gustavo Dopcke |
Fragmentation of star-forming clouds at very low metallicities |
16 |
Peter Hofner |
Jets from Massive Protostars |
15 |
Simon Bihr |
Temperature, kinematics and turbulence of infrared dark clouds (IRDCs) at high spatial resolution |
14 |
Sami Dib |
Feedback Regulated Star Formation |
13 |
Sally Oey |
The Salpeter Slope of the IMF Explained |
12 |
Mark Krumholz |
Star Formation Feedback: The Good, the Bad, and the Confusing |
11 |
Evangelia Ntormousi |
Formation of filaments from colliding supershells |
10 |
Dimitrios Gouliermis |
The hierarchical nature of star formation |
9 |
Ewine vanDishoeck |
Water: from cores to disks |
8 |
Al Wootten |
Time-Resolved AU-Scale Outflow Trajectories Traced by Masers in the IRAS16293-2422 Core |
7 |
Eli Bressert |
What the Spatial Distribution of Massive Stars tells us about Star Formation and the IMF |
6 |
Zhi-Yun Li |
Why is it difficult to form rotationally supported disks during the protostellar collapse of magnetized dense cores? |
5 |
Steven Longmore |
HOPS + MALT90 + Hi-GAL: Probing star formation on a Galactic scale through mm molecular line and far-IR continuum Galactic plane surveys |
4 |
Andreas Burkert |
Self-regulated star formation in galaxy and the evolution of the molecular web |
3 |
Aake Nordlund |
Star Formation and Chemical Yields in Giant Molecular Clouds |
2 |
Thomas Haworth |
Radiation hydrodynamics of triggered star formation: the effect of the diffuse field |
1 |
Henrik Beuther |
Massive Star Formation |