Your search keyword '"Cresci, G."' showing total 14 results

1. THE SINS SURVEY: SINFONI INTEGRAL FIELD SPECTROSCOPY OF z similar to 2 STAR-FORMING GALAXIES

Author

Schreiber, NMF, Genzel, R, Bouche, N, Cresci, G, Davies, R, Buschkamp, P, Shapiro, K, Tacconi, LJ, Hicks, EKS, Genel, S, Shapley, AE, Erb, DK, Steidel, CC, Lutz, D, Eisenhauer, F, Gillessen, S, Sternberg, A, Renzini, A, Cimatti, A, Daddi, E, Kurk, J, Lilly, S, Kong, X, Lehnert, MD, Nesvadba, N, Verma, A, McCracken, H, Arimoto, N, Mignoli, M, and Onodera, M

Subjects

Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

We present the Spectroscopic Imaging survey in the near-infrared (near-IR) with SINFONI (SINS) of high-redshift galaxies. With 80 objects observed and 63 detected in at least one rest-frame optical nebular emission line, mainly Hα, SINS represents the largest survey of spatially resolved gas kinematics, morphologies, and physical properties of star-forming galaxies at z 1-3. We describe the selection of the targets, the observations, and the data reduction. We then focus on the "SINS Hα sample," consisting of 62 rest-UV/optically selected sources at 1.3 < z < 2.6 for which we targeted primarily the Hα and [N II] emission lines. Only ≈ 30% of this sample had previous near-IR spectroscopic observations. The galaxies were drawn from various imaging surveys with different photometric criteria; as a whole, the SINS Hα sample covers a reasonable representation of massive M* ≳ 1010 M ·star-forming galaxies at z 1.5-2.5, with some bias toward bluer systems compared to pure K-selected samples due to the requirement of secure optical redshift. The sample spans 2 orders of magnitude in stellar mass and in absolute and specific star formation rates, with median values ≈ 3 × 1010 M ·, ≈ 70 M· yr-1, and 3 Gyr-1. The ionized gas distribution and kinematics are spatially resolved on scales ranging from 1.5 kpc for adaptive optics assisted observations to typically 4-5 kpc for seeing-limited data. The Hα morphologies tend to be irregular and/or clumpy. About one-third of the SINS Hα sample galaxies are rotation-dominated yet turbulent disks, another one-third comprises compact and velocity dispersion-dominated objects, and the remaining galaxies are clear interacting/merging systems; the fraction of rotation-dominated systems increases among the more massive part of the sample. The Hα luminosities and equivalent widths suggest on average roughly twice higher dust attenuation toward the H II regions relative to the bulk of the stars, and comparable current and past-averaged star formation rates. © 2009. The American Astronomical Society.

Published

2009

2. Dynamical properties of z similar to 2 star-forming galaxies and a universal star formation relation

Author

Bouche, N, Cresci, G, Eisenhauer, F, Schreiber, N, Genzel, R, Gillessen, S, Lehnert, M, Lutz, D, Nesvadba, N, Shapiro, K, Sternberg, A, Tacconi, L, Verma, A, Cimatti, A, Daddi, E, Renzini, A, Erb, D, Shapley, A, and Steidel, C

Subjects

Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

We present the first comparison of the dynamical properties of different samples of z ∼ 1.4-3.4 star-forming galaxies from spatially resolved imaging spectroscopy from SINFONI/VLT integral field spectroscopy and IRAM CO millimeter interferometry. Our samples include 16 rest-frame UV-selected, 16 rest-frame optically selected, and 13 submillimeter galaxies (SMGs). We find that rest-frame UV and optically bright (K < 20) z ∼ 2 star forming galaxies are dynamically similar, and follow the same velocity-size relation as disk galaxies at z ∼ 0. In the theoretical framework of rotating disks forming from dissipative collapse in dark matter halos, the two samples require a spin parameter 〈λ〉 ranging from 0.06 to 0.2. In contrast, bright SMGs (S850 μm ≥ 5 mJy) have larger velocity widths and are much more compact. Hence, SMGs have lower angular momenta and higher matter densities than either the UV or optically selected populations. This indicates that dissipative major mergers may dominate the SMGs population, resulting in early spheroids, and that a significant fraction of the UV/optically bright galaxies have evolved less violently, either in a series of minor mergers, or in rapid dissipative collapse from the halo, given that either process may leads to the formation of early disks. These early disks may later evolve into spheroids via disk instabilities or mergers. Because of their small sizes and large densities, SMGs lie at the high surface density end of a universal (out to z = 2.5) "SchmidtKennicutt" relation between gas surface density and star formation rate surface density. The best-fit relation suggests that the star formation rate per unit area scales as the surface gas density to a power of ∼ 1.7, and that the star formation efficiency increases by a factor of 4 between non-starbursts and strong starbursts. © 2007. The American Astronomical Society. All rights reserved.

Published

2007

3. THE zCOSMOS-SINFONI PROJECT. I. SAMPLE SELECTION AND NATURAL-SEEING OBSERVATIONS.

Author

Mancini, C., Schreiber, N. M. Förster, Renzini, A., Cresci, G., Hicks, E. K. S., Peng, Y., Vergani, D., Lilly, S., Carollo, M., Pozzetti, L., Zamorani, G., Daddi, E., Genzel, R., Maraston, C., McCracken, H. J., Tacconi, L., Bouché, N., Davies, R., Oesch, P., and Shapiro, K.

Subjects

GALAXY formation, STELLAR luminosity function, LUMINOSITY distance, STAR formation, NEAR infrared spectroscopy, COSMOS satellites

Abstract

The zCOSMOS-SINFONI project is aimed at studying the physical and kinematical properties of a sample of massive z ~ 1.4-2.5 star-forming galaxies, through SINFONI near-infrared integral field spectroscopy (IFS), combined with the multiwavelength information from the zCOSMOS (COSMOS) survey. The project is based on one hour of natural-seeing observations per target, and adaptive optics (AO) follow-up for a major part of the sample, which includes 30 galaxies selected from the zCOSMOS/VIMOS spectroscopic survey. This first paper presents the sample selection, and the global physical characterization of the target galaxies from multicolor photometry, i.e., star formation rate (SFR), stellar mass, age, etc. The Hot integrated properties, such as, flux, velocity dispersion, and size, are derived from the natural-seeing observations, while the follow-up AO observations will be presented in the next paper of this series. Our sample appears to be well representative of star-forming galaxies at z ~ 2, covering a wide range in mass and SFR. The Hot integrated properties of the 25 Hα detected galaxies are similar to those of other IFS samples at the same redshifts. Good agreement is found among the SFRs derived from Hα luminosity and other diagnostic methods, provided the extinction affecting the Hot luminosity is about twice that affecting the continuum. A preliminary kinematic analysis, based on the maximum observed velocity difference across the source and on the integrated velocity dispersion, indicates that the sample splits nearly 50-50 into rotation-dominated and velocity-dispersion-dominated galaxies, in good agreement with previous surveys. [ABSTRACT FROM AUTHOR]

Published

2011

4. HOW WELL CAN WE MEASURE THE INTRINSIC VELOCITY DISPERSION OF DISTANT DISK GALAXIES?

Author

DAVIES, R., FÖRSTER SCHREIBER, N. M., CRESCI, G., GENZEL, R., BOUCHÉ, N., BURKERT, A., BUSCHKAMP, P., GENEL, S., HICKS, E., KURK, J., LUTZ, D., NEWMAN, S., SHAPIRO, K., STERNBERG, A., TACCONI, L. J., and WUYTS, S.

Subjects

GALACTIC evolution, RADIAL velocity of galaxies, DISPERSION (Chemistry), KINEMATICS, DISKS (Astrophysics)

Abstract

The kinematics of distant galaxies from z = 0.1 to z > 2 play a key role in our understanding of galaxy evolution from early times to the present. One of the important parameters is the intrinsic, or local, velocity dispersion of a galaxy, which allows one to quantify the degree of non-circular motions such as pressure support. However, this is difficult to measure because the observed dispersion includes the effects of (often severe) beam smearing on the velocity gradient. Here we investigate tour methods of measuring the dispersion that have been used in the literature, to assess their effectiveness at recovering the intrinsic dispersion. We discuss the biases inherent in each method, and apply them to model disk galaxies in order to determine which methods yield meaningful quantities and under what conditions. All the mean-weighted dispersion estimators are affected by (residual) beam smearing. In contrast, the dispersion recovered by fitting a spatially and spectrally convolved disk model to the data is unbiased by the beam smearing it is trying to compensate. Because of this, and because the bias it does exhibit depends only on the signal-to-noise ratio (S/N), it can be considered reliable. However, at very low S/N, all methods should be used with caution. [ABSTRACT FROM AUTHOR]

Published

2011

5. CONSTRAINTS ON THE ASSEMBLY AND DYNAMICS OF GALAXIES. II. PROPERTIES OF KILOPARSEC-SCALE CLUMPS IN REST-FRAME OPTICAL EMISSION OF z ~ 2 STAR-FORMING GALAXIES.

Author

FÖRSTER SCHREIBER, N. M., SHAPLEY, A. E., GENZEL, R., BOUCHÉ, N., CRESCI, G., DAVIES, R., ERB, D. K., GENEL, S., LUTZ, D., NEWMAN, S., SHAPIRO, K. L., STEIDEL, C. C., STERNBERG, A., and TACCONI, L. J.

Subjects

GALAXIES, ASTRONOMY, GALACTIC nuclei, STARS, OPTICS

Abstract

We study the properties of luminous stellar "clumps" identified in deep, high-resolution Hubble Space Telescope NIC2/FI60W imaging at 1.6µm of six z ~ 2 star-forming galaxies with existing near-infrared integral field spectroscopy from SINFONI at the Very Large Telescope. Individual clumps contribute ~0.5%-15% of the galaxy-integrated rest-frame ≈5000Å emission, with median of ≈2%; the total contribution of clump light ranges from 10% to 25%. The median intrinsic clump size and stellar mass are ~ 1 kpc and ~ 109 M⊙, in the ranges for clumps identified in rest-UV or line emission in other studies. The clump sizes and masses in the subset of disks are broadly consistent with expectations for clump formation through gravitational instabilities in gas-rich, turbulent disks given the host galaxies' global properties. By combining the NIC2 data with Advanced Camera for Surveys (ACS)/F814W imaging available for one source, and adaptive-optics-assisted SINFONI Hot data for another, we infer modest color, M/L, and stellar age variations within each galaxy. In these two objects, sets of clumps identified at different wavelengths do not fully overlap; NIC2-identified clumps tend to be redder/older than ACS- or Hα-identified clumps without rest-frame optical counterparts. There is evidence for a systematic trend of older ages at smaller galactocentric radii among the clumps, consistent with scenarios where inward migration of clumps transports material toward the central regions. From constraints on a bulge-like component at radii ≼ 1-3 kpc, none of the five disks in our sample appears to contain a compact massive stellar core, and we do not discern a trend of bulge stellar mass fraction with stellar age of the galaxy. Further observations are necessary to probe the buildup of stellar bulges and the role of clumps in this process. [ABSTRACT FROM AUTHOR]

Published

2011

6. THE SINS SURVEY OF z ~ 2 GALAXY KINEMATICS: PROPERTIES OF THE GIANT STAR-FORMING CLUMPS.

Author

GENZEL, R., NEWMAN, S., JONES, T., FöRSTER SCHREIBER, N. M., SHAPIRO, K., GENEL, S., LILLY, S. J., A. RENZINI, TACCONI, L. J., BOUCHÉ, N., BURKERT, A., CRESCI, G., BUSCHKAMP1, P., CAROLLO, C. M., CEVERINO, D., DAVIES, R., DEKEL, A., EISENHAUER, F., HICKS, E., and KURK, J.

Subjects

GIANT stars, STAR formation, KINEMATICS, SPATIAL variation, ASTRONOMICAL research

Abstract

We have studied the properties of giant star-forming clumps in five z ~ 2 star-forming disks with deep SINFONI AO spectroscopy at the ESO VLT. The clumps reside in disk regions where the Toomre Q-parameter is below unity, consistent with their being bound and having formed from gravitational instability. Broad Hα/[N II line wings demonstrate that the clumps are launching sites of powerful outflows. The inferred outflow rates are comparable to or exceed the star formation rates, in one case by a factor of eight. Typical clumps may lose a fraction of their original gas by feedback in a few hundred million years, allowing them to migrate into the center. The most active clumps may lose much of their mass and disrupt in the disk. The clumps leave a modest imprint on the gas kinematics. Velocity gradients across the clumps are 10-40 km s-1 kpc-1, similar to the galactic rotation gradients. Given beam smearing and clump sizes, these gradients may be consistent with significant rotational support in typical clumps. Extreme clumps may not be rotationally supported; either they are not virialized or they are predominantly pressure supported. The velocity dispersion is spatially rather constant and increases only weakly with star formation surface density. The large velocity dispersions may be driven by the release of gravitational energy, either at the outer disk/accreting streams interface, and/or by the clump migration within the disk. Spatial variations in the inferred gas phase oxygen abundance are broadly consistent with inside-out growing disks, and/or with inward migration of the clumps. [ABSTRACT FROM AUTHOR]

Published

2011

7. CONSTRAINTS ON THE ASSEMBLY AND DYNAMICS OF GALAXIES. I. DETAILED REST-FRAME OPTICAL MORPHOLOGIES ON KILOPARSEC SCALE OF z ∼ 2 STAR-FORMING GALAXIESBased on observations made with the NASA/ESA Hubble Space Telescope (HST), obtained at the Space Telescope Science Institute, which is operated by AURA, Inc., under NASA contract NAS 5-26555, and at the Very Large Telescope of the European Southern Observatory, Paranal, Chile (ESO Programme IDs 073.B-9018, 074.A-9011, 075.A-0466, 076.A-0527, 077.A-0576, 078.A-0600, 079.A-0341, 080.A-0330, and 080.A-0339).

Author

Schreiber, N. M. Förster, Shapley, A. E., Erb, D. K., Genzel, R., Steidel, C. C., Bouché, N., Cresci, G., and Davies, R.

Published

2011

8. BLOWIN’ IN THE WIND: BOTH “NEGATIVE” AND “POSITIVE” FEEDBACK IN AN OBSCURED HIGH-z QUASAR.

Author

Cresci, G., Mainieri, V., Brusa, M., Marconi, A., Perna, M., Mannucci, F., Piconcelli, E., Maiolino, R., Feruglio, C., Fiore, F., Bongiorno, A., Lanzuisi, G., Merloni, A., Schramm, M., Silverman, J. D., and Civano, F.

Subjects

*QUASARS, *GALAXIES, *STAR formation, *INTERSTELLAR medium

Abstract

Quasar feedback in the form of powerful outflows is invoked as a key mechanism to quench star formation in galaxies, preventing massive galaxies to overgrow and producing the red colors of ellipticals. On the other hand, some models are also requiring “positive” active galactic nucleus feedback, inducing star formation in the host galaxy through enhanced gas pressure in the interstellar medium. However, finding observational evidence of the effects of both types of feedback is still one of the main challenges of extragalactic astronomy, as few observations of energetic and extended radiatively driven winds are available. Here we present SINFONI near infrared integral field spectroscopy of XID2028, an obscured, radio-quiet z = 1.59 QSO detected in the XMM-COSMOS survey, in which we clearly resolve a fast (1500 km s–1) and extended (up to 13 kpc from the black hole) outflow in the [O III] lines emitting gas, whose large velocity and outflow rate are not sustainable by star formation only. The narrow component of Hα emission and the rest frame U-band flux from Hubble Space Telescope/Advanced Camera for Surveys imaging enable to map the current star formation in the host galaxy: both tracers independently show that the outflow position lies in the center of an empty cavity surrounded by star forming regions on its edge. The outflow is therefore removing the gas from the host galaxy (“negative feedback”), but also triggering star formation by outflow induced pressure at the edges (“positive feedback”). XID2028 represents the first example of a host galaxy showing both types of feedback simultaneously at work. [ABSTRACT FROM AUTHOR]

Published

2015

9. THE SINS/zC-SINF SURVEY OF z ∼ 2 GALAXY KINEMATICS: EVIDENCE FOR POWERFUL ACTIVE GALACTIC NUCLEUS-DRIVEN NUCLEAR OUTFLOWS IN MASSIVE STAR-FORMING GALAXIES.

Author

Schreiber, N. M. Förster, Genzel, R., Newman, S. F., Kurk, J. D., Lutz, D., Tacconi, L. J., Wuyts, S., Bandara, K., Burkert, A., Buschkamp, P., Carollo, C. M., Cresci, G., Daddi, E., Davies, R., Eisenhauer, F., Hicks, E. K. S., Lang, P., Lilly, S. J., Mainieri, V., and Mancini, C.

Subjects

GALAXIES, ACTIVE galactic nuclei, GALACTIC evolution, STELLAR mass, ASTROPHYSICS research

Abstract

We report the detection of ubiquitous powerful nuclear outflows in massive (⩾1011M☼) z ∼ 2 star-forming galaxies (SFGs), which are plausibly driven by an active galactic nucleus (AGN). The sample consists of the eight most massive SFGs from our SINS/zC-SINF survey of galaxy kinematics with the imaging spectrometer SINFONI, six of which have sensitive high-resolution adaptive optics-assisted observations. All of the objects are disks hosting a significant stellar bulge. The spectra in their central regions exhibit a broad component in Hα and forbidden [N II] and [S II] line emission, with typical velocity FWHM ∼ 1500 km s–1, [N II]/Hα ratio ≈ 0.6, and intrinsic extent of 2-3 kpc. These properties are consistent with warm ionized gas outflows associated with Type 2 AGN, the presence of which is confirmed via independent diagnostics in half the galaxies. The data imply a median ionized gas mass outflow rate of ∼60 M☼ yr–1 and mass loading of ∼3. At larger radii, a weaker broad component is detected but with lower FWHM ∼485 km s–1 and [N II]/Hα ≈ 0.35, characteristic for star formation-driven outflows as found in the lower-mass SINS/zC-SINF galaxies. The high inferred mass outflow rates and frequent occurrence suggest that the nuclear outflows efficiently expel gas out of the centers of the galaxies with high duty cycles and may thus contribute to the process of star formation quenching in massive galaxies. Larger samples at high masses will be crucial in confirming the importance and energetics of the nuclear outflow phenomenon and its connection to AGN activity and bulge growth. [ABSTRACT FROM AUTHOR]

Published

2014

10. THE SINS/zC-SINF SURVEY OF z ∼ 2 GALAXY KINEMATICS: EVIDENCE FOR GRAVITATIONAL QUENCHING.

Author

Genzel, R., Förster Schreiber, N. M., Lang, P., Tacchella, S., Tacconi, L. J., Wuyts, S., Bandara, K., Burkert, A., Buschkamp, P., Carollo, C. M., Cresci, G., Davies, R., Eisenhauer, F., Hicks, E. K. S., Kurk, J., Lilly, S. J., Lutz, D., Mancini, C., Naab, T., and Newman, S.

Subjects

METAPHYSICAL cosmology, ASTRONOMY, GALAXIES, ACTIVE galaxies, DENSITY wave theory

Abstract

As part of the SINS/zC-SINF surveys of high-z galaxy kinematics, we derive the radial distributions of Hα surface brightness, stellar mass surface density, and dynamical mass at ∼2 kpc resolution in 19 z ∼ 2 star-forming disks with deep SINFONI adaptive optics spectroscopy at the ESO Very Large Telescope. From these data we infer the radial distribution of the Toomre Q-parameter for these main-sequence star-forming galaxies (SFGs), covering almost two decades of stellar mass (109.6-1011.5M☼). In more than half of our SFGs, the Hα distributions cannot be fit by a centrally peaked distribution, such as an exponential, but are better described by a ring, or the combination of a ring and an exponential. At the same time the kinematic data indicate the presence of a mass distribution more centrally concentrated than a single exponential distribution for 5 of the 19 galaxies. The resulting Q-distributions are centrally peaked for all, and significantly exceed unity there for three-quarters of the SFGs. The occurrence of Hα rings and of large nuclear Q-values appears to be more common for the more massive SFGs. While our sample is small and biased to larger SFGs, and there remain uncertainties and caveats, our observations are consistent with a scenario in which cloud fragmentation and global star formation are secularly suppressed in gas-rich high-z disks from the inside out, as the central stellar mass density of the disks grows. [ABSTRACT FROM AUTHOR]

Published

2014

11. HIGH-REDSHIFT STAR-FORMING GALAXIES: ANGULAR MOMENTUM AND BARYON FRACTION, TURBULENT PRESSURE EFFECTS, AND THE ORIGIN OF TURBULENCE.

Author

Burkert, A., Genzel, R., Bouché, N., Cresci, G., Khochfar, S., Sommer-Larsen, J., Sternberg, A., Naab, T., Schreiber, N. Förster, Tacconi, L., Shapiro, K., Hicks, E., Lutz, D., Davies, R., Buschkamp, P., and Genel, S.

Published

2010

12. THE IMPACT OF COLD GAS ACCRETION ABOVE A MASS FLOOR ON GALAXY SCALING RELATIONS.

Author

Bouché, N., Dekel, A., Genzel, R., Genel, S., Cresci, G., Förster Schreiber, N. M., Shapiro, K. L., Davies, R. I., and Tacconi, L.

Published

2010

13. THE SINS SURVEY: SINFONI INTEGRAL FIELD SPECTROSCOPY OF z ∼ 2 STAR-FORMING GALAXIES.

Author

Förster Schreiber, N. M., Genzel, R., Bouché, N., Cresci, G., Davies, R., Buschkamp, P., Shapiro, K., Tacconi, L. J., Hicks, E. K. S., Genel, S., Shapley, A. E., Erb, D. K., Steidel, C. C., Lutz, D., Eisenhauer, F., Gillessen, S., Sternberg, A., Renzini, A., Cimatti, A., and Daddi, E.

Published

2009

14. From Rings to Bulges: Evidence for Rapid Secular Galaxy Evolution at z ~ 2 from Integral Field Spectroscopy in the SINS Survey.

Author

Genzel, R., Burkert, A., Bouché, N., Cresci, G., Förster Schreiber, N. M., Shapley, A., Shapiro, K., Tacconi, L. J., Buschkamp, P., Cimatti, A., Daddi, E., Davies, R., Eisenhauer, F., Erb, D. K., Genel, S., Gerhard, O., Hicks, E., Lutz, D., Naab, T., and Ott, T.

Published

2008