Astronomical instrumentation

Dynamical modeling of SAURON galaxies

Proceedings of IUTAM Symposia and Summer Schools IUTAM 3

Authors:

Michele Cappellari, RCEVD Bosch, EK Verolme, R Bacon, Martin Bureau, Y Copin, RL Davies, E Emsellem, D Krajnovic, H Kuntschner, R McDermid, BW Miller, RF Peletier, PTD Zeeuw

Abstract:

We describe our program for the dynamical modeling of early-type galaxies observed with the panoramic integral-field spectrograph SAURON. We are using Schwarzschild's numerical orbit superposition method to reproduce in detail all kinematical and photometric observables, and recover the intrinsic orbital structure of the galaxies. Since catastrophes are the most prominent features in the orbital observables, two-dimensional kinematical coverage is essential to constrain the dynamical models.

First Detection of Spectral Variations of Anomalous Microwave Emission with QUIJOTE and C-BASS

Authors:

R Cepeda-Arroita, S Harper, C Dickinson, Ja Rubiño-Martín, Rt Génova-Santos, Angela C Taylor, Tj Pearson, M Ashdown, A Barr, Rb Barreiro, B Casaponsa, Fj Casas, Hc Chiang, R Fernandez-Cobos, Rdp Grumitt, F Guidi, Hm Heilgendorff, D Herranz, Lrp Jew, Jl Jonas, Michael E Jones, A Lasenby, J Leech, Jp Leahy, E Martínez-González, Mw Peel, F Poidevin, L Piccirillo, Acs Readhead, R Rebolo, B Ruiz-Granados, J Sievers, F Vansyngel, P Vielva, Ra Watson

Abstract:

Anomalous Microwave Emission (AME) is a significant component of Galactic diffuse emission in the frequency range $10$-$60\,$GHz and a new window into the properties of sub-nanometre-sized grains in the interstellar medium. We investigate the morphology of AME in the $\approx10^{\circ}$ diameter $\lambda$ Orionis ring by combining intensity data from the QUIJOTE experiment at $11$, $13$, $17$ and $19\,$GHz and the C-Band All Sky Survey (C-BASS) at $4.76\,$GHz, together with 19 ancillary datasets between $1.42$ and $3000\,$GHz. Maps of physical parameters at $1^{\circ}$ resolution are produced through Markov Chain Monte Carlo (MCMC) fits of spectral energy distributions (SEDs), approximating the AME component with a log-normal distribution. AME is detected in excess of $20\,\sigma$ at degree-scales around the entirety of the ring along photodissociation regions (PDRs), with three primary bright regions containing dark clouds. A radial decrease is observed in the AME peak frequency from $\approx35\,$GHz near the free-free region to $\approx21\,$GHz in the outer regions of the ring, which is the first detection of AME spectral variations across a single region. A strong correlation between AME peak frequency, emission measure and dust temperature is an indication for the dependence of the AME peak frequency on the local radiation field. The AME amplitude normalised by the optical depth is also strongly correlated with the radiation field, giving an overall picture consistent with spinning dust where the local radiation field plays a key role.

First Detection of Spectral Variations of Anomalous Microwave Emission with QUIJOTE and C-BASS

Authors:

R Cepeda-Arroita, S Harper, C Dickinson, Ja Rubiño-Martín, Rt Génova-Santos, Angela C Taylor, Tj Pearson, M Ashdown, A Barr, Rb Barreiro, B Casaponsa, Fj Casas, Hc Chiang, R Fernandez-Cobos, Rdp Grumitt, F Guidi, Hm Heilgendorff, D Herranz, Lrp Jew, Jl Jonas, Michael E Jones, A Lasenby, J Leech, Jp Leahy, E Martínez-González, Mw Peel, F Poidevin, L Piccirillo, Acs Readhead, R Rebolo, B Ruiz-Granados, J Sievers, F Vansyngel, P Vielva, Ra Watson

First end-end performance testing and results for KMOS

Authors:

IJ Lewis, P Rees, M Cirasuolo, SP Todd

HST imaging of hyperluminous infrared galaxies

Authors:

D Farrah, Aprajita Verma, S Oliver, M Rowan-Robinson, R McMahon

Abstract:

We present HST WFPC2 I band imaging for a sample of 9 Hyperluminous Infrared Galaxies spanning a redshift range 0.45 < z < 1.34. Three of the sample have morphologies showing evidence for interactions, six are QSOs. Host galaxies in the QSOs are reliably detected out to z ~ 0.8. The detected QSO host galaxies have an elliptical morphology with scalelengths spanning 6.5 < r_{e}(Kpc) < 88 and absolute k corrected magnitudes spanning -24.5 < M_{I} < -25.2. There is no clear correlation between the IR power source and the optical morphology. None of the sources in the sample, including F15307+3252, show any evidence for gravitational lensing. We infer that the IR luminosities are thus real. Based on these results, and previous studies of HLIRGs, we conclude that this class of object is broadly consistent with being a simple extrapolation of the ULIRG population to higher luminosities; ULIRGs being mainly violently interacting systems powered by starbursts and/or AGN. Only a small number of sources whose infrared luminosities exceed 10^{13}Lsun are intrinsically less luminous objects which have been boosted by gravitational lensing.