Astrophysics journal club

Summary:
This is the homepage of the of the weekly Astrophysics journal club at the Division of Geophysics and Astronomy at the University of Helsinki.
The meetings are of an unofficial nature and the main driver is to get together and discuss recent interesting papers. This meeting differs from the
Seminar series in that people are not expected to talk about their own research and in that no credits will be awarded to students. The meetings are
open to everyone and the aim is to stimulate discussion about recent results and provide the possibility to
 learn about research that is not necessarily
connected to one's own field of expertise.

All topics are welcome ranging from planetary science to larger scales involving stellar
 astrophysics, Milky Way studies, galaxies and cosmology.
The only requirement is that the
 presented papers should be interesting to a wider audience and that they should be presented 
in such a way that also
a non-expert can follow the presentation. In the meetings we discuss one paper each week for about 35-45 minutes.
 All meetings are in English.

Location: The Division Coffee room on the third floor.

Time: Thursdays at 10.15-11.00am during term time.

Speakers: Please contact Peter Johansson, Mikael Granvik or Petri Käpylä if you want to present a paper.

Present Program: Next talk will be on Thursday 10th of May at 10.15am. Two papers will be discussed!

Presenter: Mikael Granvik
Paper title: An Archaean heavy bombardment from a destabilized extension of the asteroid belt
Authors: Bottke, W.F.; Vokrouhlicky, D.; Minton, D.; Nesvorny, D.; Morbidelli, A.; Brasser, R.; Simonson, B.; Levison, H.F.
Reference: 2012, Nature, 485, 78-81

Abstract: The barrage of comets and asteroids that produced many young lunar basins (craters over 300 kilometres in diameter) has frequently been
called the Late Heavy Bombardment (LHB). Many assume the LHB ended about 3.7 to 3.8 billion years (Gyr) ago with the formation of Orientale basin.
Evidence for LHB-sized blasts on Earth, however, extend into the Archaean and early Proterozoic eons, in the form of impact spherule beds: globally distributed
ejecta layers created by Chicxulub-sized or larger cratering events. At least seven spherule beds have been found that formed between 3.23 and 3.47 Gyr ago,
four between 2.49 and 2.63 Gyr ago, and one between 1.7 and 2.1 Gyr ago. Here we report that the LHB lasted much longer than previously thought,
with most late impactors coming from the E belt, an extended and now largely extinct portion of the asteroid belt between 1.7 and 2.1 astronomical units from Earth.
This region was destabilized by late giant planet migration. E-belt survivors now make up the high-inclination Hungaria asteroids. Scaling from
the observed Hungaria asteroids, we find that E-belt projectiles made about ten lunar basins between 3.7 and 4.1 Gyr ago. They also produced about 15 terrestrial
basins between 2.5 and 3.7 Gyr ago, as well as around 70 and four Chicxulub-sized or larger craters on the Earth and Moon, respectively, between 1.7 and 3.7 Gyr ago.
These rates reproduce impact spherule bed and lunar crater constraints.

Presenter: Mikael Granvik
Paper title: Impact spherules as a record of an ancient heavy bombardement of Earth
Authors: Johnson, B.C. & Melosh, H.J.
Reference: 2012, Nature, 485, 75-77

Abstract: Impact craters are the most obvious indication of asteroid impacts, but craters on Earth are quickly obscured or destroyed by surface
weathering and tectonic processes. Earth’s impact history is inferred therefore either from estimates of the present-day impactor flux as determined
by observations of near-Earth asteroids, or from the Moon’s incomplete impact chronology. Asteroids hitting Earth typically vaporize a mass of target
rock comparable to the projectile’s mass. As this vapour expands in a large plume or fireball, it cools and condenses into molten droplets called spherules.
For asteroids larger than about ten kilometres in diameter, these spherules are deposited in a global layer. Spherule layers preserved in the geologic
record accordingly provide information about an impact even when the source crater cannot be found. Here we report estimates of the sizes and impact
velocities of the asteroids that created global spherule layers. The impact chronology from these spherule layers reveals that the impactor flux was
significantly higher 3.5 billion years ago than it is now. This conclusion is consistent with a gradual decline of the impactor flux after the Late Heavy Bombardment.

Past program:

Spring 2012:

• 26.04.2012  Peter Johansson: - Paper: Moni Bidin, C.; Carraro, G.; Mendez, R.A.; Smith, R., 2012, "Kinematical and chemical vertical structure of the Galactic thick disk II. A lack of dark matter in the solar neighborhood"
• 19.04.2012  Julien Montillaud: -Paper: Ziurys L.M., Milam S.N., Apponi A.J. & Woolf N.J., 2007, Nature, 447, 1094-1097: "Chemical complexity in the winds of the oxygen-rich supergiant star VY Canis Majoris"
• 12.04.2012  Jorma Harju: -Paper: Chung, A.; Yun, M.S.; Naraynan, G.; Heyer, M.; Erickson, N.R, 2011, ApJ, 732, L15: "Evidence for 1000 km/s Molecular Outflows in the Local ULIRG Population"
• 29.03.2012  Jörn Warnecke: - Paper: Scharmer, G.B. & Henriques, V.M.J., 2012, A&A, 540, A19: "SST/CRISP observations of convective flows in a sunspot penumbra"
• 22.03.2012  Peter Johansson: - Paper: Gillessen, S.; Genzel, R.; Fritz, T.K. et al., 2012, Nature, 48, 51-54: "A gas cloud on its way towards the supermassive black hole at the Galactic Centre"
• 14.03.2012  Jouni Kainulainen: - Paper: Kainulainen, J.; Beuther, H.; Banerjee, R.; Federrath, C.; Henning, T., 2011, A&A, 530, 64: "Probing the evolution of molecular cloud structure. II. From chaos to confinement"
• 08.03.2012  Petri Käpylä: - Paper: Vaquero, J. M.; Trigo, R. M., 2012, Solar Physics in press, arXiv: 1203.1073: "A Note on Solar Cycle Length during the Medieval Climate Anomaly"
• 01.03.2012  Mikael Granvik: - Paper: Zubovas, K.; Nayakshin, S.; Markoff, S., 2012, MNRAS, in press, arXiv: 1110.6872: "Sgr A* flares: tidal disruption of asteroids and planets?
• 16.02.2012  Chunlin Tian: - Paper : Kitiashvili, I.N.; Kosovichev, A.G.; Mansour, N.N.; Wray, A.A., 2012, arXiv:1201.5442, Submitted to ApJL:"Dynamics of Magnetized Vortex Tubes in the Solar Chromosphere"
• 09.02.2012  Jan Snellman: - Paper: Tchekhovskoy, A.; McKinney, J.C., 2012, arXiv:1201.4385, Submitted to MNRAS:"Prograde and Retrograde Black Holes: Whose Jet is More Powerful?"
• 02.02.2012  Oskari Miettinen - Paper: Churchwell, E.; Povich, M.S; Allen, D. et al., 2006, ApJ, 649, 759:"The Bubbling Galactic Disk"
• 26.01.2012  Tuomas Lunttila - Paper: Hosokawa, T.; Omukai, K.; Yoshida, N.; Yorke, H.W., 2011, Science, 334, 1250:"Protostellar Feedback Halts the Growth of the First Stars in the Universe"
• 19.01.2012  Veli-Matti Pelkonen - Paper: Cassan, A., Kubas, D., Beaulieu, J.-P. et al., 2012, Nature, 481, 167:"One or more bound planets per Milky Way star from microlensing observations."

Autumn 2011:

• 15.12.2011  Miikka Väisälä - Paper: Li, Hua-Bai & Henning, Thomas, 2011, Nature, 479, 499: "The alignment of molecular cloud magnetic fields with the spiral arms in M33"
• 08.12.2011  Peter Johansson - Paper: Thöne, C. C.; de Ugarte Postigo, A.;Fryer, C. L et al., 2011, Nature, 480, 72: "The unusual γ-ray burst GRB 101225A from a helium star/neutron star merger at redshift 0.33"
• 08.12.2011  Mikael Granvik - Paper: Campana, S.; Lodato, G.; D'Avanzo, P. et al., 2011, Nature, 480, 69: "The unusual gamma-ray burst GRB 101225A explained as a minor body falling onto a neutron star"
• 01.12.2011  Kalevi Mattia - Paper: Tzu-Ching Chang, Ue-Li Pen, Kevin Bandura & Jeffrey B. Peterson, 2010, Nature, 466, 463:"An intensity map of hydrogen 21-cm emission at redshift z~0.8"
• 24.11.2011  Peter Johansson and Tomas Kohout - Paper: The OPERA Collaboration, 2011, Submitted, Arxiv:1109.4897:"Measurement of the neutrino velocity with the OPERA detector in the CNGS beam"
• 17.11.2011  Petri Käpylä - Paper: Brun, Miesch, Toomre, 2011, ApJ, 742, 79:"Modelling the Dynamical coupling of solar convection with the radiative interior"
• 03.11.2011  Tomas Kohout - Paper: Hogerheijde et al., 2011, Science, 334, 338:"Detection of the water reservoir in a forming planetary system"
• 20.10.2011  Jorma Harju - Paper: Ingalls et al., 2011, ApJ, submitted: Spitzer IRS Detection of Molecular Hydrogen Rotational Emission Towards Translucent Clouds
• 13.10.2011  Jyri Lehtinen - Paper: Frasca et al., 2011, A&A, 532, 81:"Magnetic activity and differential rotation in the very young star KIC 8429280"
• 06.10.2011  Thomas Hackman - Paper: Radigan et al., 2011, ApJ, submitted:"High Amplitude, Periodic Variability of a Cool Brown Dwarf: Evidence for Patchy, High-Contrast Cloud Features"  
• 29.09.2011  Miikka Väisälä - Paper: Machida&Matsumoto, 2011, MNRAS, 413, 2767:"The origin and formation of the circumstellar disc" 
• 22.09.2011  Peter Johansson - Paper: Purcell et al., 2011, Nature, 477, 301:"The Sagittarius impact as an architect of spirality and outer rings in the Milky Way"  
• 15.09.2011  Olli Sipilä - Paper: Pagani et al., 2011, ApJL, 739, 35:"Ortho-H2 And the Age of Interstellar Dark Clouds"   
• 08.09.2011  Petri Käpylä - Paper: Nelson et al., 2011, ApJL, 739, 38:"Buoyant Magnetic Loops in a Global Dynamo Simulation of a Young Sun"
• 23.08.2011  Mikael Granvik - Paper: Jutzi&Asphaug, 2011, Nature, 476,69:"Forming the lunar farside highlands by accretion of a companion moon"
• 23.08.2011  Peter Johansson - Paper: van Dokkum & Conroy, 2010, Nature, 468, 940:"A substantial population of low-mass stars in luminous elliptical galaxies"             
• 16.08.2011  Mikael Granvik - Paper: Levison et al. 2010, Science, 329, 187: "Capture of the Sun's Oort Cloud from Stars in Its Birth Cluster"
• 16.08.2011  Peter Johansson - Paper: Mortlock et al., 2011, Nature, 474, 616: "A luminous quasar at a redshift of z = 7.085"