December 26: HOLIDAY
December 19: no talk, enjoy the holidays!
December 12: Fast Stars and Fast Lives: G2 and the Fastest Stars in the Universe - James Guillochon, ITC (CfA, Harvard)
Orbiting about our galaxy's central black hole are many tightly-bound stars that move at great velocities. Occasionally, these stars pass close enough to the central black hole to lose mass, with larger stars being more prone to mass loss. I will first summarize the results of a paper published earlier this year suggesting that the G2 cloud could have formed through the partial disruption of a red giant star, and the status of the search for the object that was disrupted. The second part of my talk will focus on what would happen to the central cluster surrounding our galaxy's black hole if it were to merge with another black hole. I will argue that this process occurs regularly in the Universe when galaxies merge, and that this leads to the production of an unbound population of stars that can move at speeds in excess of a few tenths of the speed of light.
December 5: no talk, budget meeting
November 28: MINI-RETREAT
November 21: Analytic models for deriving flows onto supermassive black holes in disc galaxies - Kambiz Fathi, Stockholm University
I will present a set of new results demonstrating how analytic dynamical models can be used to predict gas flows at galactic scales and in the circumnuclear regions of disc galaxies, down to the vicinity of supermassive black holes. The quantitative agreement between the models and observations of the multi-phase interstellar medium confirms that we are indeed able to follow gas from kpc scales down the resolution limit of state-of-the-art ALMA observations. I will further discuss how our tools could be used to gain further insight on observed kinematic features in more distant galaxies.
November 14: The variation in molecular gas depletion time among nearby galaxies: II the impact of galaxy internal structures - Mei-Ling Huang, MPA
We combine three data sets of nearby galaxies, including HERACLES, ATLAS3D, and COLD GASS surveys to study the impact of galaxy structure such as the bulge, arm, bar and ring on molecular gas depletion time (t_dep) on kiloparsec and global scales. Molecular gas is traced by CO line emission and star formation rate (SFR) is derived by the combination of far-ultraviolet and mid-infrared data either at 22 or 24 micron. We improve on previous studies of the COLD GASS and ATLAS3D samples by matching the apertures for CO and SFR measurements as closely as possible. The contribution of old stars to the mid-infrared emission from the early-type galaxies in ATLAS3D is corrected using K-band emission measured from 2MASS images.
Our results show that at a given value of the specific SFR (sSFR), the bulge region has reduced molecular gas depletion time than the disk region. Using a subset of COLD GASS galaxies whose discs are fully covered by the IRAM beam, we also find that the integrated H2 depletion time declines as the bulge-to-disc ratio of the galaxy increases. The depletion time in spiral arms is on average shorter than outside arms. In addition, the t_dep versus sSFR relation for the disks of galaxies with spiral arms is displaced to lower t_dep at fixed sSFR compared to galaxies without spiral arms. In contrast, the grids from galaxies with bars and rings have reduced t_dep at a given sSFR.
November 7: KVN, KaVA, and the Jets of AGN - Sascha Trippe, Seoul National University
At radio frequencies, active galactic nuclei (AGN) are dominated by collimated outflows - jets - that span hundreds of kiloparsecs. Jets play a crucial role in the energy budget of AGN and influence the evolution of their host galaxies. Despite their importance, the physics of jets, especially the mechanisms of launching and collimation, are only crudely understood. I present recent interferometric observations with the Korean VLBI Network (KVN) and KaVA, a combination of KVN with the Japanese VERA array. KVN is able to observe a target simultaneously at 22, 43, 86, and 129 GHz in dual polarization, making it ideal for studying the plasma physics of AGN jets. KaVA complements KVN via high-angular resolution observations at 22 and 43 GHz. With these capabilities, we have been able to trace the flux distributions, spectral index evolution, and linear polarization in the central parsecs of eight radio-bright AGN.
October 31: The Structure of Quasar Accretion Disks - Jason Dexter
Despite its widespread use in interpreting observations of AGN for ~40 years, standard accretion disk theory cannot explain a number of independent optical/UV observations. I will discuss the major problems and a couple of possible (but speculative) solutions.
October 24: High-redshift disks with a central starburst - Ken-ichi Tadaki
Most massive galaxies are thought to grow inside-out: dense, compact cores form first and then gradually puff up probably through minor mergers. The formation mechanism of the compact cores (nuggets) is poorly understood. Recently, it is suggested that high-redshift clumpy disks can evolve into compact nuggets through the dissipative shrinkage as well as major mergers. Our Subaru NB survey has identified some candidates of the transition population which are clumpy galaxies with central starburst. I will talk about this result and future plans with ALMA, JVLA and NB+AO.
October 17: Planet formation and atmospheric mass loss - Re'em Sari, the Hebrew University of Jerusalem
October 10: The excitation of near-IR/mid-IR molecular lines in protoplanetary disks - Simon Bruderer
October 3: HOLIDAY
September 26: Hot Jupiters, their cooling and their inflated sizes - Re'em Sari, the Hebrew University of Jerusalem
Some hot jupiters display larger radii and smaller densities than expected. We lay out an analytic model for the cooling of such planets. The extreme illumination from the host star creates a thick isothermal layer in their envelopes, which slows down their convective cooling, but not sufficiently. We show how energy deposition deep in their envelope, even with lower power than that of the star, makes this isothermal layer thicker, farther slowing their cooling, potentially explaining their inflated sizes.
September 12: Understanding the ISM of nearby galaxies through IR spectral lines - Kevin Croxall, Ohio State University
Monday, August 11: Proper motions in the halo of the Milky Way - Tobias Fritz
Objects in the halo of the Milky Way like globular clusters, dwarf galaxies and tidal streams are useful to answer questions regarding the halo. On the one hand they themselves constitute the main baryonic component of the halo and are therefore important to understand galaxy formation in the nearly undisturbed outskirts of galaxies. On the other hand, they are the best tracers of the dark matter there. Especially for the second question full phase space information is important. While radial velocities are available for most objects, proper motions are missing for most.
I will present our current and future efforts to add proper motions. Firstly, I will show my very recent proper motion measurements for the globular cluster Palomar 5. I have achieved an accuracy of 0.18 mas/yr with a 15 year baseline using SDSS and LBT/LBC. Secondly, I will introduce our 143 h large program at Gemini South which starts in September. By using MCAO we achieve high precision from the ground in only two years. We target 15 different objects.
July 25: Sgr A*: intermittent accretion and outflows - Jorge Cuadra, Universidad Católica de Chile
We present numerical models of the gas dynamics in the inner parsec of the Galactic centre. We follow the gas from its origin as stellar winds of several observed young massive stars, until it is either captured by the central black hole, or leaves the system. Unlike our previous models, we include the expected outflow from the inner accretion flow. We find that the outflow perturbs the gas dynamics near the Bondi radius and the black hole capture rate significantly, and that these effects persist for longer than the outflow. Accretion rate estimates that do not account for feedback outflows over-predict not only the accretion rate onto the black hole but also the capture rate at the Bondi radius itself. Finally, the steady- state assumption under which non-radiative flows have been routinely studied in the literature may have to be abandoned if accretion feedback is bursty in nature.
July 18: Tucker Jones, UC Santa Barbara
I will discuss recent and ongoing work aimed at detailed characterization of typical star forming galaxies at redshifts z~2. The focus will be on galaxies with properties similar to those expected for Milky Way-like progenitors (with stellar masses of 1e9-1e10 Msun at z=2), and particularly on gravitationally lensed galaxies for which high quality spectroscopic data can be obtained inexpensively. Deep Hubble imaging and grism spectra are currently being taken for large samples via the Frontier Fields initiative and the GLASS survey, which together characterize the stellar and nebular properties with exquisite spatial resolution. I will present initial results from these efforts and prospects for the full survey. I will also describe our recent Keck campaign to obtain rest-frame UV spectroscopy, which reveals detailed information about the interstellar and outflowing gas as well as the stellar metallicity. Results from these surveys support a coherent picture of galaxy evolution along the "main sequence" in which star formation predominantly occurs in clumpy turbulent disks with sub-solar metallicity, and is regulated by outflows of metal-enriched gas.
July 11: KMOS3D: The Evolution of Resolved Kinematics from z=2.7 to z=0.7 - Emily Wisnioski
July 4: Evidence for Wide-Spread AGN Driven Outflows in the Most Massive z~1-2 Star Forming Galaxies - Reinhard Genzel
In this study we follow up on our previous detection of nuclear ionized outflows in the most massive (log(M*/Msun) >= 10.9) z~1-3 star-forming galaxies (Forster Schreiber et al.), by increasing the sample size by a factor of six (to 44 galaxies above log(M*/Msun) >= 10.9) from a combination of the SINS/zC-SINF, LUCI, GNIRS, and KMOS^3D spectroscopic surveys. We find a fairly sharp onset of the incidence of broad nuclear emission (FWHM in the Ha, [NII], and [SII] lines ~ 450-5300 km/s), with large [NII]/Ha ratios, above log(M*/Msun) ~ 10.9, with 66+/-15% of the galaxies in this mass range exhibiting this component. Broad nuclear components near and above the Schechter mass are similarly prevalent above and below the main sequence of star-forming galaxies, and at z~1 and ~2. The line ratios of the nuclear component are fit by excitation from active galactic nuclei (AGN), or by a combination of shocks and photoionization. The incidence of the most massive galaxies with broad nuclear components is at least as large as that of AGNs identified by X-ray, optical, infrared or radio indicators. The mass loading of the nuclear outflows is near unity. Our findings provide compelling evidence for powerful, high-duty cycle, AGN-driven outflows near the Schechter mass, and acting across the peak of cosmic galaxy formation.
June 27: Dynamical constraints on the mass budget in early star-forming disks - Stijn Wuyts
With KMOS^3D, we are mapping the velocity fields of a large and homogeneous sample of galaxies at redshifts z~1 and z~2. For the same galaxies, a wealth of multi-wavelength imaging information is available, from the UV to the far-IR, including high-resolution ACS+WFC3 maps from HST. Exploiting stellar mass maps based thereupon, and applying state-of-the-art gas scaling relations, I will address how the velocity curves observed with KMOS compare to expectations based on the multi-wavelength imagery. I will further discuss how this analysis sheds light on the mass budget in early disks.
June 20: no talk - Albrechts' goodbye party
June 13: IGRINS- A Next-Generation R=40,000 Spectrograph for the Near-IR - Dan Jaffe, University of Texas
IGRINS, the immersion grating infrared spectrograph has high spectral resolution and an extraordinarily broad spectral grasp. The instrument incorporates several new technical innovations including a silicon immersion echelle, H and K band VPH cross-dispersers, and a "build to print" optomechanical design. We report on the results of two commissioning runs where we have taken sample observations of interstellar, stellar, and planetary targets. We will also outline some of the major science projects we will carry out with IGRINS in the next few years.
June 6: Mergers and Interactions in the Local Universe - Trevor Mendel, MPE/OPINAS
I'll talk about ongoing pair studies in the local Universe. I'll discuss the role of dynamical interactions in triggering star formation, AGN activity, and, ultimately, morphological transformation. This work is possible thanks to the enormous spectroscopic samples available in the SDSS and other local surveys; I'll discuss the prospects of extending similar studies to z > 1, in particular using our ongoing KMOS GTO surveys.
May 30: HOLIDAY
May 23: Metallicity evolution at 0.8 < z < 2.6 from LUCI, SINS and KMOS3D - Eva Wuyts
We present the correlations between stellar mass, star formation rate (SFR) and gas-phase metallicity estimated from the [NII]/Ha flux ratio for a sample of 222 galaxies at 0.8 < z < 2.6 and log(M*/Msun)=9.0-11.5 observed with LUCI at the LBT, and SINFONI and KMOS at the VLT. This sample provides the first analysis of the mass-metallicity relation (MZR) over an extended redshift range using consistent sample selection, data analysis techniques and strong-line metallicity indicator. We find a constant slope at the low-mass end of the MZR, which is however significantly steeper than seen in the local Universe. We can fully describe the redshift evolution of the high-z MZR through the evolution of the characteristic turnover mass where the relation begins to flatten at the asymptotic metallicity.
At fixed redshift, our data do not show a correlation between metallicity and SFR, which disagrees with the 0.2-0.3~dex offset in [N~II]/Ha predicted by the "fundamental relation'' between stellar mass, SFR and metallicity proposed by Mannucci et al. (2010). However, the MZR evolution towards lower metallicities at earlier times does agree within the uncertainties with their prediction. This suggests that the physical processes responsible for the spread in SFR at fixed redshifts are to some degree distinct from the physics driving the overall evolution in cosmic SFR, and correlate differently with galaxy abundance.
May 16: no tea talk
May 9: Feeding and Feedback in Nearby AGN - Allan Schnorr Müller
I will discuss the feeding and feedback in a small sample of nearby AGNs, observed with the GMOS integral field unit on the GEMINI telescopes at a spatial resolution of ~100 pc and a spectral resolution of ~50 km/s. We observe gas inflows along nuclear spirals and filaments, with velocities ranging from 50 to 100km/s and mass flow rates from 0.1 to 1 Msun/yr. These rates are 2-3 orders of magnitude larger than the mass accretion rate to the supermassive black hole. Outflow velocities range from 50km/s to 200km/s and outflow rates from 0.5 to 1Msun/yr.
May 2: Unveiling the Infrared Properties of Optically-Selected Galaxies or: How I Learned to Stop Worrying and Love Statistical Methods - Marco Viero, Caltech/Stanford
Far-infrared/Submillimeter wavelengths provide a unique window into obscured star formation at high redshifts, with the full ensemble of dusty star-forming galaxies combining to make up the Cosmic Infrared Background (CIB). However, source confusion - a noise floor which is present in maps where the PSF is large enough to contain multiple sources - makes identifying individual sources and relating them to their optical counterparts incredibly challenging. Given these limitations, I will outline (relatively simple) methods designed to *statistically* make this connection, and I will present latest results from HerMES on the evolving infrared properties of optical/NIR-selected galaxies, including their redshift distributions, clustering properties, temperatures, and luminosity densities. I will show how these properties are intimately tied to their host galaxy stellar mass and redshift, and then summarize their implications for galaxy evolution and cosmology. I will finish by presenting HeLMS and HerS, two new Hershel surveys in the SDSS Stripe 82 which were designed to leverage the rich set of ancillary data in the stripe to better answer these and other exciting questions.
April 25: Populations of Young Stellar Objects in Nearby Molecular Clouds - Tien-Hao Hsieh, National Tsing-Hua University, Taiwan
We develop a new method to identify YSOs from star-forming regions using the photometry data from Spitzer’s c2d Legacy Project. The aim is to obtain YSO lists as complete as possible for studying the statistical properties, such as Star Formation Rate (SFR) and lifetimes of YSOs in different evolutionary stages. The largest obstacle for identifying YSOs comes from background galaxies with similar SEDs to YSOs. Traditionally, selected color-color and color-magnitude criteria are used to separate YSOs and galaxies. However, since there is no obvious boundary between YSOs and galaxies in Color-Color Diagrams (CCDs) and Color-Magnitude Diagrams (CMDs), those criteria may exclude faint YSOs near the boundary. In this paper, we separate the YSOs and galaxies in multi-dimensional (Multi-D) magnitude space, which is equivalent to using all variations of CMDs simultaneously. Comparing sources from molecular clouds to Spitzer’s SWIRE data, which have negligible amount of YSOs, we can naturally identify YSO candidates locating outside of the galaxy populated regions in the Multi-D space. In the five c2d-surveyed clouds, we select 322 new YSO candidates (YSOc), miss/exclude 33 YSOc compared to Evans et al.(2009) and result in 1313 YSOc in total. As a result, SFR increases 28% correspondingly, but the lifetimes of YSOs in different evolutionary stages remain unchanged. Comparing to theories Krumholz & McKee(2005), our derived SFR suggests that star formation in large scale is dominated by supersonic turbulence rather than magnetic fields. Furthermore, we identify 7 new Very Low Luminosity Objects (VeLLOs, Lint < 0.1L⊙). We have used the Wide-field Infrared Camera (WIRCam) on the Canada France Hawaii Tele- scope (CFHT) to observe 20 faintest Low Luminosity Objects (LLOs, Lint < 0.2L⊙) identified by Dunham et al. (2008), which are believed to be Young Stellar Objects (YSOs) in extremely early stage. We obtained Ks band images which trace the scattered light from the dusty cone swept by the outflows, thus our observations explore the existence of outflow in extremely early stage of star formation. Outflow signatures are clearly detected toward 9 objects. By comparing the observing images with that of radiation transfer model, we estimate their opening angles that may be important indicator of the evolutionary status.
April 18: Holiday
April 11: What I did before I came to MPE, or The South Pole Telescope Temperature and Polarization Experiments - Liz George
April 4: Bulge Growth and Quenching since z = 2.5 in CANDELS/3D-HST - Philipp Lang
Exploiting the deep high-resolution imaging of all 5 CANDELS fields, and accurate redshift information provided by 3D-HST, we investigate the relation between structure and stellar populations for a
mass-selected sample of 6764 galaxies above 10^10 Msun, spanning the redshift range 0.5 < z < 2.5. For the first time, we fit 2-dimensional models comprising a single Sersic fit and two-component (i.e., bulge + disk) decompositions not only to the H-band light distributions, but also to the stellar mass maps reconstructed from resolved stellar population modeling. We confirm that the increased bulge prominence among quiescent galaxies, as reported previously based on rest-optical observations, remains in place when considering the distributions of stellar mass. Moreover, we observe an increase of the typical Sersic index and bulge-to-total ratio (with median B/T reaching 40-50%) among star-forming galaxies above 10^11 Msun. Given that quenching for these most massive systems is likely to be imminent, our findings suggest that significant bulge growth precedes a departure from the star-forming main sequence. We demonstrate that the bulge mass (and ideally knowledge of the bulge and total mass) is a more reliable predictor of the star-forming versus quiescent state of a galaxy than the total stellar mass. The same trends are predicted by the state-of-the-art semi-analytic model by Somerville et al. In the latter, bulges and black holes grow hand in hand through merging and/or disk instabilities, and AGN-feedback shuts off star formation. Further observations will be required to pin down star formation quenching mechanisms, but our results imply they must be internal to the galaxies and closely associated with bulge growth.
March 28: Spatially resolved molecular inflow and outflow: where do Seyferts get their gas? - Ric Davies
March 21: Global Gas Content vs. Evolutionary State at Low Redshift - Andrew Baker, Rutgers University
The ratio of a galaxy's global molecular and atomic gas masses has long been known to depend on its Hubble type and whether or not it is engaged in a major merger. Close examination of a sample of local galaxies has now revealed an additional, intricate relationship between this ratio and the blueness of a galaxy's center relative to its outskirts-- a metric thought to reflect a system's recent interaction history. I will introduce this relationship and suggest possible explanations for why different sorts of galaxies lie where they do in a new two-dimensional "fueling diagram" (Stark et al. 2013, ApJ, 769, 82)
March 14: no tea talk - ESO 3D2014 conference
March 7: DOUBLE FEATURE
1. Infrared Spectral Mapping of the Superwind in M82 - Pedro Beirao, IPAC
At a distance of about 3 Mpc, M82 affords an unparalleled opportunity to study a dusty outflow in great detail. By mapping the M82 outflow with Spitzer-IRS we can determine the physical properties and the structure of the dust and molecular gas swept up in the outflow, especially the small dust grains and the molecular hydrogen. I will present spectral maps built from the observations, using the PAH 11.3/7.7 and 6.2/7.7, [NeIII]/[NeII], H2/PAH, H2/[NeII], and PAH/[NeII] line ratios, and also H2 excitation diagrams. I will discuss the properties of the ionized gas, PAHs and the H2 emission, and the origin of H2 emission comparing our maps to X-ray images and using shock excitation models.
2. Gas flows (In&Out) around galaxies in the era of 3D spectroscopy - Nicolas Bouché, IRAP
We live in a golden era for integral field spectroscopy (IFS) available on 8m class telescopes, with SINFONI, KMOS and MUSE at the VLT. I will highlight some recent results on gas outflows and accretion around galaxies that rely on IFS. These results will serve to illustrate a new tool designed to go beyond traditional methods to extract physical properties from IFS data in low-SNR regime and without AO.
February 28: AGN accretion history from Herschel - Ivan Delvecchio, University of Bologna
Constraining the evolution of active galactic nuclei (AGN) across the cosmic time is essential to shed light on the formation and evolution of galaxies. Several studies, mostly X-ray based, have significantly improved our knowledge on the supermassive black hole (SMBH) growth. I will present recent and consistent estimates on the AGN evolution from an infrared perspective, as obtained from Herschel data. In the framework of the PACS Evolutionary Probe (PEP) project, we study a sample of ~4400 Herschel-PACS selected galaxies within the GOODS-South and the COSMOS fields. Starting from the rich multi-wavelength photometric data-sets available in both fields, we perform a broad-band Spectral Energy Distribution (SED) decomposition to disentangle the possible AGN contribution from that related to the host galaxy. We find that 37 per cent of our sample shows signatures of nuclear activity at the 99 per cent confidence level. The probability to reveal AGN activity does increase as a function of both infrared (1-1000) luminosity and redshift, becoming about 80 per cent for the brightest (L 1-1000 > 10^12 L_sun) infrared galaxies at z>1. Finally, we reconstruct the AGN bolometric luminosity function and the SMBH growth rate up to z~3, also well reproducing the observed local BH mass density with consistent values of the BH radiative efficiency (~0.07).
February 21: Reducing fiber noise in high resolution spectroscopy and measuring the reflectivity and focussing properties of the Cherenkov telescopes MAGIC - Hanna Kellermann
February 14: Gravitational Waves and Black Hole Binaries from Galactic Nuclei - Hyung Mok Lee, Seoul National University
Gravitational waves predicted by the general relativity almost 100 years ago have been implicated indirectly only by astrophysical observations such as the orbital evolution of binary pulsars. The advanced detectors of gravitational waves will become operational in a few years and they are expected to make direct detection of gravitational wave signal coming from merging of binaries composed of neutron stars or stellar mass black holes from external galaxies. Current estimates of the expected rate of merger event of neutron star or black hole binaries are based on very limited number of observed binary pulsars with careful considerations on the observational biases, stellar evolution, including binary phases, and dynamics of dense star clusters. Therefore these estimations vary several orders of magnitude depending on assumed parameters and models. We concentrate on the expected rates of the black hole binaries originated from galactic nuclei star clusters (NC) purely based on the dynamical considerations. The NCs with central supermassive black holes (SMBHs) are modeled stars representing the stellar mass BHs together with the additional potential due to the central black hole and bulge in the N-body simulations. In such an environment, binaries are predominantly formed by the gravitational radiation (GR) as a result of close encounters. Most of the binaries have very eccentric orbits (1-e ~10^-4) with very small presenter distances. The merging time after the formation of the binary is much shorter than any other dynamically relevant time scales. They will produce waveforms quite different from the ones with circularized orbits as they remain eccentric when they enter the aLIGO/Virgo bands. We find that the overall formation rates for BH-BH binaries per NC is 10^-10 per year for the Milky-Way-like galaxies, corresponding to order of 0.2 to 2 events per year within the aLIGO/Virgo horizons. However, several factors such as the dynamical evolution of the cluster, the variance of the number density of stars and the mass range of MBH give uncertainties by a large factor (up to a factor of ~100).
February 7: Probing the velocity dispersions of neutral gas in the ISM of nearby galaxies - Anahi Caldu-Primo, MPIA
With the advent of new instruments, it has been possible to gather a better understanding of the gas motions in nearby galaxies. Recent studies have provided evidence of the differentiation of the molecular gas in two phases: one that is associated with the dense gas linked to star formation, and an additional more diffuse component. This latter component has a higher velocity dispersion than the first one.
I will first show the results of a study in which we compare the line widths of CO (a common tracer for the molecular gas phase) and HI in a sample of 12 nearby galaxies. We look at the dependance of line widths with different physical parameters, like galactocentric distance or star formation rate surface density. We measure comparable line widths for both tracers, and propose a possible interpretation based on the existence of a high-velocity dispersion molecular gas component.
We pursue this idea further by comparing high–quality interferometric and single–dish imaging in NGC 4736 and NGC 5055. Our analysis shows that the single–dish line widths are indeed higher by ~20% than the ones based on the interferometric observations. This finding can be explained by the presence of a diffuse molecular gas component that is being missed by the interferometric observations.
January 31: Reconciling the star-forming properties of Active Galaxies near and far - David Rosario
Our Herschel PEP studies of star-formation in distant AGN have revealed some interesting relationships, which I will briefly review in this talk. I will then move to an attempt to understand these same relationships in local populations of AGN using currently available deep far-IR data in the SDSS/Stripe82. In a work in progress, I show that some of the most massive and powerful star-forming galaxies tend to host AGN, though a wide range in SF properties is found. I show evidence that earlier methods of estimating the SFR in AGN may be systematically in error. Finally, with sufficient care to account for survey biases, I show that the SF trends for local AGN do indeed follow our earlier studies in detail.
January 24: Probing the ISM Properties of Galaxies through their FIR Fine-Structure Lines: The SHINING View - Javier Gracia Carpio
Fine-structure lines in the FIR are important probes of the physical conditions of the interstellar medium in galaxies. In this talk I will present the main results from the observation of these lines by our Herschel guaranteed time key program SHINING. We used the PACS spectrometer to study the FIR properties of a sample of more than 100 galaxies that includes local starbursts, Seyfert galaxies, low-metallicity systems, and infrared luminous galaxies at low and high redshift. We find that the ratio between the FIR luminosity and the molecular gas mass, Lfir/Mmol, is a much better proxy for the relative brightness of the fine-structure lines than Lfir alone. Systems with intense star formation tend to have weaker lines relative to their FIR continuum, than less active star-forming galaxies. These line deficits are found both in local and high-z galaxies, and are probably a consequence of their more intense interstellar radiation fields. Recently we have been able to extend our analysis to kpc and sub-kpc scales by resolving with Herschel the spatial emission in local galaxies. We find low line to continuum ratios in regions with high FIR surface densities and warm dust temperatures. Only the most compact and obscured regions in some local HII galaxies present line deficits as strong as those found globally in luminous and ultraluminous infrared galaxies.
January 17: A Keplerian Disk around a Class 0 source: ALMA observations of VLA1623A - Nadia Murillo
Rotationally supported disks are critical in the star formation process, for accretion in the early stage and planet formation in the later stages. The questions of when they form and what factors influence or hinder their formation have been studied but are largely unanswered. Observations of early-stage Young Stellar Objects (YSOs) are needed to probe disk formation. VLA1623 is a triple non-coeval protostellar system whose Class 0 component, VLA1623A, shows a disk-like structure in continuum with signatures of rotation in line emission. ALMA Cycle 0 Early Science 1.3 mm continuum and C18O (2-1) observations in the extended configuration are presented and used to perform an analysis of the disk-like structure using position-velocity (PV) diagrams and thin disk modeling with the addition of foreground absorption. Our study of the line emission shows that the disk out to 180 AU is rotationally supported, with the rotation described well by Keplerian rotation out to at least 150 AU, and the central source mass is ~0.2 M⊙ for an inclination of 55°. Pure infall and conserved angular momentum rotation models are ruled out. We find VLA1623A to have the youngest Keplerian disk yet observed, demonstrating that disk formation can occur very early.
December 13: Possible evidence for the disappearance of the AGN torus at low luminosities - Leonard Burtscher
Theoretical studies suggest that low-luminosity AGNs are not able to sustain an obscuring torus. This holds both for tori that originate in an outflowing (wind) structure and for ones that are part of the accretion flow. So far, however, there is little evidence for a dependance of torus properties on AGN luminosity. Instead it seems that relations such as the mid-IR X-Ray correlation are unchanged down to about 10^41 erg/s. We compiled a large (> 50 sources) sample of IFU data for AGNs that span a wide range in luminosities around the expected threshold. The sources are nearby so that we are sensitive to the dilution of the stellar features on small spatial scales. With this sample, we study the dilution of the stellar light, traced by the near-infrared CO absorption features, by the non-stellar continuum as a function of radius and find a change in the properties of the diluting continuum that happens very close to the expected threshold luminosity. We will discuss whether this supports predictions that the torus disappears at low luminosities.
December 6: Dynamics and structures of the ISM around AGNs - Keiichi Wada
I am going to talk about recent progress in our on-going radiation-hydrodynamic simulations of the ISM on pc-10 pc scales around AGNs. We found that non-steady, non-uniform outflows are often formed, and as a result the nucleus is covered over wide solid angles.
November 29: Not another narrow-angle astrometric interferometer? - Yitping Kok
Ever since the successful high-precision narrow-angle astrometric prototype observations of binary stars with optical long baseline interferometry (OLBI) more than two decades ago, the OLBI community has been putting significant effort to replicate the success by building similar astrometric instruments at stellar interferometers for similar and different scientific goals. The ASTRA facility at the Keck Interferometer, the PRIMA facility at the VLTI and the GRAVITY instrument we are currently assembling in the next building are examples of such effort. This talk will describe similar effort at the Sydney University Stellar Interferometer (SUSI). The main scientific goal of the recently installed astrometric instrument at SUSI is to carry out Jupiter-mass exoplanet search around bright binary stars. This talk will describe the interferometric methodology adopted and the observational strategy carried out at SUSI. Initial results and challenges going forward will also be discussed.
November 20: Accretion and stellar mass growth in low mass galaxies - Katharina Lutz - Master thesis defense
We combine deep long-slit optical spectra, atomic and molecular gas measurements, as well as public SDSS and GALEX imaging for a sample of 30 galaxies in the mass range 9.0 < log M⋆/M⊙ < 10.0. These galaxies are the first observed as part of a new survey whose goal is to study the formation histories of low mass galaxies, and the role of gas accretion and star formation efficiency in regulating their growth. This new survey, COLD GASS 2, builds upon the results of the GASS and COLD GASS surveys which targeted massive galaxies (log M⋆/M⊙ > 10.0). In this thesis, we use the long-slit optical spectra for 27 low mass galaxies to study the radial variation of key quantities such as metallicity, star formation surface density and stellar age, and correlate these variations with global galaxy properties. The results are combined with the COLD GASS sample to probe the full stellar mass range between 10^9 and 10^11.5 M⊙ . Our analysis reveals a mass threshold of log M⋆ ≈ 10.5, above and below which the stellar mass growth of galaxies appears to proceed differently. While high mass galaxies show clear signs of growing inside-out, the low mass galaxies appear to be forming stars throughout their disk, despite displaying significant radial metallicity variations. A simple closed-box chemical model is unable to reproduce all our observations, indicating that significant exchange of material with the intergalactic medium must be taking place, likely through both inflows and outflows.
November 8: The ALMA view of one of the nearest starburst galaxies - Alberto D. Bolatto
Department of Astronomy and Joint Space Institute, University of Maryland, Visiting Humboldt Fellow at MPIA-Heidelberg
In the context of galaxy evolution, it is particularly interesting to understand better the mechanisms that regulate starburst activity in galaxies. In this talk I will present an analysis of the molecular ISM properties in the prototypical circumnuclear starburst galaxy, NGC 253, derived from ALMA observations. I will discuss the evidence for a molecular superwind, our measurements of the mass loss rate, and the possible gas entraining mechanisms. I will show our measurement of the properties of giant molecular clouds in the starburst, in an effort to better understand the conditions in the starburst. Finally, I will present and discuss some of the spectroscopic complexity we see in the data. This extremely rich spectroscopy, a common feature in many ALMA datasets, opens new windows for the study of physical conditions in extragalactic systems.
30: Special tea meeting 14:00 hrs Non-Herschel Science "Teasers" and Photonic OH Suppression Sylvain Veilleux (Maryland)
23: Special tea meeting 14:00 hrs AO Facility Project for the VLT: Calibration, Operation & Control of an adaptive telescope Nicolas Muller (ESO)
16: Special tea meeting 14:00 hrs Tracing back the star formation history of galaxies in galaxy cluster environment with Subaru Yusei Koyama (Durham)
9: Special tea meeting 14:00 hrs The kiloparsec-scale molecular outflows in two starburst galaxies An-Li Tsai (National Central University, Taiwan)
14: Regular tea meeting 14:00 hrs Summary of the workshop "Black hole feedback David Rosario & Leonard Burtscher
3: Regular tea meeting 14:00 hrs On the Importance of Considering the Effects of Magnetic Fields in Observational Studies of Young Stellar Objects Casey Deen
27: Regular tea meeting 14:00 hrs The MIDI AGN Large Programme: AGN "tori" are more compact than expected Leonard Burtscher
20: Regular tea meeting 11:00 hrs The role of environment in the evolution of the Star Formation activity up to z~1.6 Felicia Ziparo
13: Regular tea meeting 14:00 hrs Mid-Infrared Emission Line Spectra of Starburst LIRGs in the GOALS Sample Hanae Inami
15: Double Feature
14:00 hrs The roles of atomic and neutral gas on the star formation and metallicity in the galaxy formation models Fu Jian (MPA)
15:00 hrs Applying for and Getting Faculty Jobs in the US - the perspective from the Other Side Dan Jaffe
4: Regular tea meeting 14:00 hrs Probing the impact of galactic winds with quasars Nicolas Bouche
20: Regular tea meeting 14:00 hrs Rehearsal: PROGRESO Stefan Gillessen
10: Special tea meeting 14:00 hrs Studying submillimeter galaxies in the Lockman Hole North Bob Lindner
20: Special tea meeting 14:00 hrs Probing the mm/radio properties of AGN Sascha Trippe
16: Special tea meeting 14:00 hrs New samples of strongly lensed galaxies: a magnified view of the distant Universe Eva Wuyts
9: Special tea meeting 14:00 hrs A new type of compact stellar population: dark star clusters Sambaran Banerjee
11: Special tea meeting 14:00 hrs Understanding the relation between star formation and molecular gas near and far Claudia Lagos
To be scheduled
The next generation of FIR detectors Albrecht Poglitsch
Dragonfly Frank Eisenhauer
KMOS - Multi-Object-Spectroscopy at the VLT Natascha Förster Schreiber
1: Regular tea meeting 14:00 hrs tbd tbd
8: Regular tea meeting 14:00 hrs Searching for Young Exoplanets to Constrain Formation Mechanisms Dan Jaffe
15: Regular tea meeting 14:00 hrs How to build adaptive optics for the visible Sebastian Rabien
3: no tea meeting
10: Regular tea meeting 14:00 hrs Wavefront sensing of Argos: the detectors and the RTC Gilles Orbain de Xivry
17: Special tea meeting 14:00 hrs CO ladder discussion Ewine van Dishoeck
24: Ringberg, no tea meeting
6: No tea meeting
13: Regular tea meeting 14:00 hrs ARGOS - the laser for the LBT Sebastian Rabien
20: Regular tea meeting 14:00 hrs News from IRAM Linda Tacconi
27: No tea meeeting
1: Regular tea meeting 14:00 hrs SPICA - the next FIR mission Walfried Raab
8: Regular tea meeting 14:00 hrs Fast, low readnoise, NIR APD-detectors Frank Eisenhauer
15: Regular tea meeting 14:00 hrs Nanometer precision metrology David Moch
22: Easter, no tea meeting
29: Regular tea meeting 14:00 hrs GRAVITY - how to combine the VLT to an interferometer Oliver Pfuhl
18: Regular tea meeting 14:00 hrs Adaptive optics: what's so good about 5 laser guide stars? Ric Davies
25: Regular tea meeting 14:00 hrs The extinction law from 1µm to 20µm Tobias Fritz
17: Regular tea meeting 14:00 hrs SINS galaxies in cosmological SPH simulations Shy Genel
12: Regular tea meeting 14:00 hrs PACS Observations of High-J CO Emission in Nearby Galaxies Steve Hailey-Dunsheath
29: Regular tea meeting 14:00 hrs TBD Eleonora Sani
22: Regular tea meeting 14:00 hrs LINERs: what are they really? Ric Davies
15: Regular tea meeting 14:00 hrs Near-Infrared variability in embedded clusters Srikrishna Kanneganti
17: Regular tea meeting 14:00 hrs Host galaxies of AGN in the COSMOS field Andrea Merloni / Angela Bongiorno
10: no tea meeting
3: not tea meeting
30: Regular tea meeting 14:00 hrs canceled
23: Regular tea meeting 14:00 hrs First Science with Lucifer Jaron Kurk
16: Regular tea meeting 14:00 hrs New High Resolution Infrared Spectrographs Using Immersion Gratings Dan Jaffe
9: Regular tea meeting 14:00 hrs The Flux Distribution of Sgr A*: Flare events or Continuous Variability? Katie Dodds-Eden
2: Regular tea meeting 14:00 hrs canceled
25: Regular tea meeting 14:00 hrs Far-infrared properties of SMGs and OFRGs Benjamin Magnelli
18: Regular tea meeting 14:00 hrs canceled
11: Regular tea meeting 14:00 hrs PACS Spectroscopy of ULIRGs: Clues from Mkn 231 and Arp 220 Observations Jackie Fischer
4: Special tea meeting 14:00 hrs Rehearsing of talks for visiting committee All
28: Regular tea meeting 14:00 hrs Reviewing the First Results from Herschel/PACS Observations of Low-Mass Young Stellar Objects Greg Herczeg
14: no tea meeting
7: Regular tea meeting 14:00 hrs Dust and Gas Clearing in Protoplanetary Disks Joanna Brown
30: Regular tea meeting 14:00 hrs A factor of three Raanan Nordon
23: Regular tea meeting 14:00 hrs Luminous SMGs are major mergers Hauke Engel
16: Discussion on Visible Adaptive Optics Ric Davies / Sebastian Rabien
9: 14:00 - 17:00 hrs Discussion with Chris McKee
2: Good Friday
18: Regular tea meeting 14:00 hrs The nature of IRS13E Tobias Fritz
13: Regular tea meeting 14:00 hrs Formation of high-z quasars driven by nuclear starbursts Nozomu Kawakatu
30: Regular tea meeting 14:00 hrs Protostars and protoplanetary disks: from Spitzer to Herschel Ewine van Dishoeck
23: Meeting cancelled, talk will be at Ringberg retreat
16: Regular tea meeting 14:00 hrs The Halo Merger Rate in the Millennium Simulation and Implications for Observed Galaxy Merger Fractions Shy Genel
9: No tea meeting Special SINS meeting
7: Regular tea meeting 14:00 hrs Inferring the dynamics of the Milky Way Jo Bovy (Center for Cosmology and Particle Physics, NYU)
24: Regular tea meeting 14:00 hrs NIR interferometry of Young Stellar Objects Thomas Preibisch (USM)
17: Regular tea meeting 14:00 hrs Observations of the [CII] 158 micron transition at z = 1 - 2: First results Steve Hailey-Dunsheath
THURSDAY 16: SPECIAL tea meeting 14:00 hrs High-z QSOs and the ELVA capabilities Chris Carilli
MPA lecture hall
3: No tea meeting Gas brain-storming session
12: Regular tea meeting 14:00 hrs Herschel - Launch & Status Albrecht Poglitsch
5: Special tea meeting 10:00 hrs The Sky in Our Lives: A Public Survey of Astronomy Jarita C. Holbrook
3: WEDNESDAY - Special tea meeting 14:00 hrs The Evolution of Massive YSOs in the LMC Leslie Looney
29: Regular tea meeting 14:00 hrs New Results on Inflows and Outflows in Nearby Active and Starburst Galaxies Sylvain Veilleux
22: Regular tea meeting 14:00 hrs Submm measurements of star formation in a ECDFS AGN hosts: Two modes? Dieter Lutz
15: Regular tea meeting 14:00 hrs Narrow Radiative Recombination Continua: A Signature of Ions Crossing the Contact Discontinuity of Astrophysical Shocks Raanan Nordon
8: Cancelled due to illness of speaker
1: National Holiday
17: Regular tea meeting 14:00 hrs Spiral-driven inflow - the case of NGC 1097 Ric Davies
10: National Holiday
3: Regular tea meeting 14:00 hrs z>1 ULIRGs with SWIRE, WISE and ALMA Carol Lonsdale (Head of North American ALMA Science Center)
27: Regular tea meeting 14:00 hrs Obscured and powerful AGN and starburst activities at z=3.5 Stefano Berta
20: Regular tea meeting 14:00 hrs The relationship between dense molecular gas and star formation in galaxies Javier Gracia Carpio
13: Regular tea meeting 14:00 hrs The extreme SED of [HB89] 0102-272: An extreme UV bright, X-ray weak and supersoft quasar Thomas Boller
6: Regular tea meeting 14:00 hrs The dynamics of the disc(s) in the galactic centre Holger Baumgardt
27: Regular tea meeting 14:00 hrs Evidence for Warped Disks of Young Stars in the Galactic Center Hendrik Bartko
30: no tea meeting
23: Special Tea Meeting: 14:00 The Proposal Exercise - Results!
Starts sharp at 14:00!
16: Regular tea meeting 14:00 hrs Double bars: making sense of orbits that don't close Witold Maciejewski
9: speaker was ill
19: no tea meeting
12: Regular tea meeting 14:00 hrs High redshift galaxies and their evolution Qi Guo
5: Regular tea meeting 14:00 hrs Observational signatures of recoiling supermassive black holes Stefanie Komossa
28: Special tea meeting - mandatory for students 14:00 hrs "How to write a good proposal" Linda Tacconi
21: Regular tea meeting 14:00 hrs AGN-Starburst connection in Narrow Line Seyfert 1 galaxies: a Spitzer screening Eleonora Sani
14: Regular tea meeting 14:00 hrs Omega Centauri - host of an IMBH ? Eva Noyola
7: Regular tea meeting 14:00 hrs Modeling z~2 disks and the high-z Tully-Fisher relation Giovanni Cresci
31: No tea meeting: Farewell party Hasinger
24: Regular tea meeting 14:00 hrs High-redshift infrared galaxies: mid-infrared properties and evolutionary models Elisabetta Valiante
17: No tea meeting
10: Regular tea meeting 14:00 hrs X-ray spectral properties of SgrA* observed by Chandra Laura Mascetti
3: No tea meeting National Holiday
26: Regular tea meeting 14:00 hrs PRIMA - current performance and future upgrades Oliver Pfuhl
19: Special tea meeting 14:00 hrs On the origin of the X-Ray emission of Herbig Ae/Be stars Murad Hamidouche
18: Special tea meeting 14:00 hrs Seven weeks of PRIMA integration at the VLTI Johannes Sahlmann
12: Regular tea meeting 14:00 hrs What is limiting microarsec astrometry in the Galactic Center? Tobias Fritz
5: Sepcial tea meeting 10:30 hrs Revealing the inner structure of AGNs through X-ray absorption variability Guido Risaliti
22: Special tea meeting 14:00 hrs Status of LUCIFER Nancy Ageorges
27: Regular tea meeting 14:00 hrs Made-to-measure dynamical models of galaxies Flavio Lorenzi
20: Regular tea meeting 14:00 hrs tbd Dan Jaffe
6: Regular tea meeting 14:00 hrs Galaxies die in Groups: An IRAC Autopsy David Wilman
16: Regular tea meeting 14:00 hrs The German and EURO Virtual Observatories Jens Zuther & Gerard Lemson
2: no tea meeting
25: Regular tea meeting 14:00 hrs NGC6240 - the story so far Hauke Engel
18: Regular tea meeting 14:00 hrs The GRAVITY tip-tilt system - AO for the VLTI delay line tunnel Johannes Kolmeder
11: Regular tea meeting 14:00 hrs Connecting halo mergers and galaxy properties Michael Boylan-Kolchin, MPA
4: Regular tea meeting 14:00 hrs Kinematics of the Galactic Center cluster Sascha Trippe
28: No tea meeting PACS meeting
21: No tea meeting Easter
7: Regular tea meeting 14:00 hrs Merger rates from the Millenium Simulation Shy Genel
29: Regular tea meeting 14:00 hrs Molecular Hydrogen in the central 100pc of AGN Erin Hicks
22: No tea meeting (speaker is abroad)
15: Regular tea meeting 14:00 hrs The universal characteristics of PAHs Alessandra Contursi
8: No tea meeting Post-doc candidate visiting
1: No tea meeting Post-doc candidate visiting
25: Regular tea meeting 14:00 hrs An Alternative to GR: TeVeS Katie Dodds-Eden
18: Regular tea meeting 14:00 hrs Spitzer/IRS spectroscopy of high-z QSO Dieter Lutz
11: Regular tea meeting 14:00 hrs Gas streamers and obscuration in NGC 1068 Francisco Mueller-Sanchez
15: Title to be announced Dan Jaffe
4: Rehearsal for visiting commitee 14:00 hrs Starformation and Evolution of local QSOs Mario Schweitzer
30: Regular tea meeting 14:00 hrs Imaging Spectroscopy of the centres of nearby AGN: direct observation of the Torus and the Stellar Dynamical Black Hole Mass in NGC1068 Francisco Mueller-Sanchez
9: Regular tea meeting 14:00 hrs Impressions from LBT Peter Buschkamp
16: Regular tea meeting 14:00 hrs Highlights from SINS Natascha Förster-Schreiber
2: Regular tea meeting 14:00 hrs Observation of TeV Gamma Rays from the Galactic Center with the MAGIC Telescope Hendrik Bartko
19: Postdoc applicant 11:00 hrs Understanding the Gastrophysics of Massive Galaxies - Lessons Learned from High- and Low-z Thomas Greve
15: Postdoc applicant 11:00 hrs The Formation and Evolution of Disk Galaxies From z~1 to Now: Constraints from New Observations. Susan Kassin
12: Postdoc applicant 11:00 hrs High-redshift (z=1-3) massive galaxies, as seen by Spitzer Stefano Berta
10: Special tea meeting 14:00 hrs Self-gravitating warped disks around nuclear black holes A. Siddiki
9: Postdoc applicant 11:00 hrs The nucleus of Centaurus A Nadine Neumayer
5: no tea meeting
22: no tea meeting
15: The supermassive black hole in NGC 4486a detected with SINFONI N. Nowak
8: no tea meeting
1: no tea meeting
24: Fibre coupling S. Ihle
17: Everything you always wanted to know about submm galaxies * but were afraid to ask < src="/PIFICONS/MPG/Blau/linkPfeil.gif" alt="link" border="0"> E. Valiante
10: no tea meeting
3: Infrared Dust Spectra of Active Galactic Nuclei E. Sturm
27: Eddington limited starbursts in the nuclei of active galaxies R. Davies
20: no tea meeting
13: The IMF of NGC 3603 Y. Harayama
6: A polarised infrared flare from Sagittarius A* and the signatures of orbiting plasma hotspots S. Trippe
28: no tea meeting
21: no tea meeting
14: LUCIFER: Status and Outlook R. Hofmann
7: Adaptive Optics (laser and natural guide star) Studies of Central Black Holes K. Gebhardt
6: High contrast spectroscopy with SINFONI N. Thatte
Special tea talk on THURSDAY
30: not tea meeting (half the group away)
23: Kinematics of Ultracompact HII regions Dan Jaffe
!! Change of Location: MPA, Lecture Hall, 401
16: no tea meeting (June 15 is national holiday)
9: Next Generation High Resolution Spectrographs in the NIR Dan Jaffe
2: no tea meeting (half the group away)
26: no tea meeting (25 is Christ Himmelfahrt / Ascension Day)
19: Stellar and wind properties of massive stars in the central parsec of the Galaxy F. Martins
12: NIR IFS of Circinius and NGC 3783 F. Müller-Sanchez
5: no tea meeting
28: Evidence for star formation in Quasars M. Schweitzer
21: no tea meeting
14: no tea meeting (Karfreitag/Good Friday)
13: Ultraluminous X-ray sources and intermediate mass black holes M. Ward
7: Stellar orbits around SgrA* S. Trippe (rehearsal)
31: The Two Young Star Disks in the Central Parsec of the Galaxy T. Paumard (rehearsal)
29: Special tea meeting: The latest technical development at IRAM K. Schuster
24:  no tea meeting
17:  no tea meeting
10:  no tea meeting
- 17 Stefan Gillessen (Variations in the spectral slope of Sgr A* during a NIR flare)
- 7 Jens Thomas (dynamical modeling of galaxies, special)
- further prospective speakers in October:
Sturm ? (QSO-2 with Spitzer)
Davies (hot molecular hydrogen in galactic nuclei (H2 1-0 S(1)))
- 16 Fabrice Martins (Winds of O stars: latest news)
- 23 Mario Schweitzer (silicate emission in AGN, AG Tagung rehearsal)
- 30 -- (AG Tagung)
- Summer Break
- 8 Aprajita Verma (Ly-break galaxies at z>5)
- 22 Dieter Lutz (Mambo photometry of Spitzer sources)
- 10 Kalliopi Dasyra
- 17 Thomas Mueller (Hayabusa meets Itokawa)
- 24 Thibaut Paumard (proper motion of flares in SgA*)