Your search keyword '"Daigle, Olivier"' showing total 20 results

1. Delta-doped Electron Multiplying CCDs for FIREBall-2

Author

Kyne, Gillian, Hamden, Erika T., Nikzad, Shouleh, Hoadley, Keri, Jewell, April, Jones, Todd, Hoenk, Michael, Cheng, Samuel, Martin, D. Christopher, Lingner, Nicole, Schiminovich, David, Milliard, Bruno, Grange, Robert, Daigle, Olivier, Kyne, Gillian, Hamden, Erika T., Nikzad, Shouleh, Hoadley, Keri, Jewell, April, Jones, Todd, Hoenk, Michael, Cheng, Samuel, Martin, D. Christopher, Lingner, Nicole, Schiminovich, David, Milliard, Bruno, Grange, Robert, and Daigle, Olivier

Abstract

We present the status of on-going detector development efforts for our joint NASA/CNES balloon-borne UV multi-object spectrograph, the Faint Intergalactic Redshifted Emission Balloon (FIREBall-2; FB-2). FB-2 demonstrates a new UV detector technology, the delta-doped Electron Multiplying CCD (EMCCD), in a low risk suborbital environment, to prove the performance of EMCCDs for future space missions and Technology Readiness Level (TRL) advancement. EMCCDs can be used in photon counting (PC) mode to achieve extremely low readout noise ($<$1 electron). Our testing has focused on reducing clock-induced-charge (CIC) through wave shaping and well depth optimization with a \nuvu V2 CCCP Controller, measuring CIC at 0.001 e$^{-}$/pixel/frame. This optimization also includes methods for reducing dark current, via cooling, and substrate voltage levels. We discuss the challenges of removing cosmic rays, which are also amplified by these detectors, as well as a data reduction pipeline designed for our noise measurement objectives. FB-2 flew in 2018, providing the first time an EMCCD was used for UV observations in the stratosphere. FB-2 is currently being built up to fly again in 2020, and improvements are being made to the EMCCD to continue optimizing its performance for better noise control., Comment: 36 pages, 9 figures

Published

2020

2. Delta-doped Electron Multiplying CCDs for FIREBall-2

Author

Kyne, Gillian, Hamden, Erika T., Nikzad, Shouleh, Hoadley, Keri, Jewell, April, Jones, Todd, Hoenk, Michael, Cheng, Samuel, Martin, D. Christopher, Lingner, Nicole, Schiminovich, David, Milliard, Bruno, Grange, Robert, Daigle, Olivier, Kyne, Gillian, Hamden, Erika T., Nikzad, Shouleh, Hoadley, Keri, Jewell, April, Jones, Todd, Hoenk, Michael, Cheng, Samuel, Martin, D. Christopher, Lingner, Nicole, Schiminovich, David, Milliard, Bruno, Grange, Robert, and Daigle, Olivier

Abstract

We present the status of on-going detector development efforts for our joint NASA/CNES balloon-borne UV multi-object spectrograph, the Faint Intergalactic Redshifted Emission Balloon (FIREBall-2; FB-2). FB-2 demonstrates a new UV detector technology, the delta-doped Electron Multiplying CCD (EMCCD), in a low risk suborbital environment, to prove the performance of EMCCDs for future space missions and Technology Readiness Level (TRL) advancement. EMCCDs can be used in photon counting (PC) mode to achieve extremely low readout noise ($<$1 electron). Our testing has focused on reducing clock-induced-charge (CIC) through wave shaping and well depth optimization with a \nuvu V2 CCCP Controller, measuring CIC at 0.001 e$^{-}$/pixel/frame. This optimization also includes methods for reducing dark current, via cooling, and substrate voltage levels. We discuss the challenges of removing cosmic rays, which are also amplified by these detectors, as well as a data reduction pipeline designed for our noise measurement objectives. FB-2 flew in 2018, providing the first time an EMCCD was used for UV observations in the stratosphere. FB-2 is currently being built up to fly again in 2020, and improvements are being made to the EMCCD to continue optimizing its performance for better noise control., Comment: 36 pages, 9 figures

Published

2020

3. The Brazilian Tunable Filter Imager for the SOAR telescope

Author

de Oliveira, Cláudia Mendes, Taylor, Keith, Quint, Bruno, Andrade, Denis, Ferrari, Fabricio, Laporte, Rene, Ramos, Giseli de A., Guzman, Christian Dani, Cavalcanti, Luiz, de Calasans, Alvaro, Fernandez, Javier Ramirez, Castañeda, Edna Carolina Gutierrez, Jones, Damien, Fontes, Fernando Luis, Molina, Ana Maria, Fialho, Fábio, Plana, Henri, Jablonski, Francisco J., Reitano, Luiz, Daigle, Olivier, Scarano Jr., Sergio, Amram, Philippe, Balard, Philippe, Gach, Jean-Luc, Carignan, Claude, de Oliveira, Cláudia Mendes, Taylor, Keith, Quint, Bruno, Andrade, Denis, Ferrari, Fabricio, Laporte, Rene, Ramos, Giseli de A., Guzman, Christian Dani, Cavalcanti, Luiz, de Calasans, Alvaro, Fernandez, Javier Ramirez, Castañeda, Edna Carolina Gutierrez, Jones, Damien, Fontes, Fernando Luis, Molina, Ana Maria, Fialho, Fábio, Plana, Henri, Jablonski, Francisco J., Reitano, Luiz, Daigle, Olivier, Scarano Jr., Sergio, Amram, Philippe, Balard, Philippe, Gach, Jean-Luc, and Carignan, Claude

Abstract

This paper presents a new Tunable Filter Instrument for the SOAR telescope. The Brazilian Tunable Filter Imager (BTFI) is a versatile, new technology, tunable optical imager to be used in seeing-limited mode and at higher spatial fidelity using the SAM Ground-Layer Adaptive Optics facility at the SOAR telescope. The instrument opens important new science capabilities for the SOAR community, from studies of the centers of nearby galaxies and the insterstellar medium to statistical cosmological investigations. The BTFI takes advantage of three new technologies. The imaging Bragg Tunable Filter concept utilizes Volume Phase Holographic Gratings in a double-pass configuration, as a tunable filter, while a new Fabry-Perot (FP) concept involves technologies which allow a single FP etalon to act over a large range of interference orders and spectral resolutions. Both technologies will be in the same instrument. Spectral resolutions spanning the range between 25 and 30,000 can be achieved through the use of iBTF at low resolution and scanning FPs beyond R ~2,000. The third new technologies in BTFI is the use of EMCCDs for rapid and cyclically wavelength scanning thus mitigating the damaging effect of atmospheric variability through data acquisition. An additional important feature of the instrument is that it has two optical channels which allow for the simultaneous recording of the narrow-band, filtered image with the remaining (complementary) broad-band light. This avoids the uncertainties inherent in tunable filter imaging using a single detector. The system was designed to supply tunable filter imaging with a field-of-view of 3 arcmin on a side, sampled at 0.12" for direct Nasmyth seeing-limited area spectroscopy and for SAM's visitor instrument port for GLAO-fed area spectroscopy. The instrument has seen first light, as a SOAR visitor instrument. It is now in comissioning phase., Comment: accepted in PASP

Published

2013

4. The Brazilian Tunable Filter Imager for the SOAR telescope

Author

de Oliveira, Cláudia Mendes, Taylor, Keith, Quint, Bruno, Andrade, Denis, Ferrari, Fabricio, Laporte, Rene, Ramos, Giseli de A., Guzman, Christian Dani, Cavalcanti, Luiz, de Calasans, Alvaro, Fernandez, Javier Ramirez, Castañeda, Edna Carolina Gutierrez, Jones, Damien, Fontes, Fernando Luis, Molina, Ana Maria, Fialho, Fábio, Plana, Henri, Jablonski, Francisco J., Reitano, Luiz, Daigle, Olivier, Scarano Jr., Sergio, Amram, Philippe, Balard, Philippe, Gach, Jean-Luc, Carignan, Claude, de Oliveira, Cláudia Mendes, Taylor, Keith, Quint, Bruno, Andrade, Denis, Ferrari, Fabricio, Laporte, Rene, Ramos, Giseli de A., Guzman, Christian Dani, Cavalcanti, Luiz, de Calasans, Alvaro, Fernandez, Javier Ramirez, Castañeda, Edna Carolina Gutierrez, Jones, Damien, Fontes, Fernando Luis, Molina, Ana Maria, Fialho, Fábio, Plana, Henri, Jablonski, Francisco J., Reitano, Luiz, Daigle, Olivier, Scarano Jr., Sergio, Amram, Philippe, Balard, Philippe, Gach, Jean-Luc, and Carignan, Claude

Abstract

This paper presents a new Tunable Filter Instrument for the SOAR telescope. The Brazilian Tunable Filter Imager (BTFI) is a versatile, new technology, tunable optical imager to be used in seeing-limited mode and at higher spatial fidelity using the SAM Ground-Layer Adaptive Optics facility at the SOAR telescope. The instrument opens important new science capabilities for the SOAR community, from studies of the centers of nearby galaxies and the insterstellar medium to statistical cosmological investigations. The BTFI takes advantage of three new technologies. The imaging Bragg Tunable Filter concept utilizes Volume Phase Holographic Gratings in a double-pass configuration, as a tunable filter, while a new Fabry-Perot (FP) concept involves technologies which allow a single FP etalon to act over a large range of interference orders and spectral resolutions. Both technologies will be in the same instrument. Spectral resolutions spanning the range between 25 and 30,000 can be achieved through the use of iBTF at low resolution and scanning FPs beyond R ~2,000. The third new technologies in BTFI is the use of EMCCDs for rapid and cyclically wavelength scanning thus mitigating the damaging effect of atmospheric variability through data acquisition. An additional important feature of the instrument is that it has two optical channels which allow for the simultaneous recording of the narrow-band, filtered image with the remaining (complementary) broad-band light. This avoids the uncertainties inherent in tunable filter imaging using a single detector. The system was designed to supply tunable filter imaging with a field-of-view of 3 arcmin on a side, sampled at 0.12" for direct Nasmyth seeing-limited area spectroscopy and for SAM's visitor instrument port for GLAO-fed area spectroscopy. The instrument has seen first light, as a SOAR visitor instrument. It is now in comissioning phase., Comment: accepted in PASP

Published

2013

5. Extreme faint flux imaging with an EMCCD

Author

Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, Blais-Ouellette, Sébastien, Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, and Blais-Ouellette, Sébastien

Abstract

An EMCCD camera, designed from the ground up for extreme faint flux imaging, is presented. CCCP, the CCD Controller for Counting Photons, has been integrated with a CCD97 EMCCD from e2v technologies into a scientific camera at the Laboratoire d'Astrophysique Exp\'erimentale (LAE), Universit\'e de Montr\'eal. This new camera achieves sub-electron read-out noise and very low Clock Induced Charge (CIC) levels, which are mandatory for extreme faint flux imaging. Data gathered with the camera suggests that through enhanced manufacturing processes, which would avoid traps from being created, and with the help of the clock shapes producible with CCCP, the CIC generated during the vertical transfer could be virtually suppressed. The camera has been characterized in laboratory and used on the Observatoire du Mont M\'egantic 1.6-m telescope. The performance of the camera is discussed and experimental data with the first scientific data are presented., Comment: 11 pages, 5 figures, Proceedings of the Detectors for Astronomy 2009 conference

Published

2009

6. Extreme faint flux imaging with an EMCCD

Author

Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, Blais-Ouellette, Sebastien, Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, and Blais-Ouellette, Sebastien

Abstract

An EMCCD camera, designed from the ground up for extreme faint flux imaging, is presented. CCCP, the CCD Controller for Counting Photons, has been integrated with a CCD97 EMCCD from e2v technologies into a scientific camera at the Laboratoire d'Astrophysique Experimentale (LAE), Universite de Montreal. This new camera achieves sub-electron read-out noise and very low Clock Induced Charge (CIC) levels, which are mandatory for extreme faint flux imaging. It has been characterized in laboratory and used on the Observatoire du Mont Megantic 1.6-m telescope. The performance of the camera is discussed and experimental data with the first scientific data are presented., Comment: 33 pages, 17 figures, accepted for publication in PASP

Published

2009

7. Extreme faint flux imaging with an EMCCD

Author

Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, Blais-Ouellette, Sébastien, Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, and Blais-Ouellette, Sébastien

Abstract

An EMCCD camera, designed from the ground up for extreme faint flux imaging, is presented. CCCP, the CCD Controller for Counting Photons, has been integrated with a CCD97 EMCCD from e2v technologies into a scientific camera at the Laboratoire d'Astrophysique Exp\'erimentale (LAE), Universit\'e de Montr\'eal. This new camera achieves sub-electron read-out noise and very low Clock Induced Charge (CIC) levels, which are mandatory for extreme faint flux imaging. Data gathered with the camera suggests that through enhanced manufacturing processes, which would avoid traps from being created, and with the help of the clock shapes producible with CCCP, the CIC generated during the vertical transfer could be virtually suppressed. The camera has been characterized in laboratory and used on the Observatoire du Mont M\'egantic 1.6-m telescope. The performance of the camera is discussed and experimental data with the first scientific data are presented., Comment: 11 pages, 5 figures, Proceedings of the Detectors for Astronomy 2009 conference

Published

2009

8. Extreme faint flux imaging with an EMCCD

Author

Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, Blais-Ouellette, Sebastien, Daigle, Olivier, Carignan, Claude, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Fortin, Charles-Anthony, and Blais-Ouellette, Sebastien

Abstract

An EMCCD camera, designed from the ground up for extreme faint flux imaging, is presented. CCCP, the CCD Controller for Counting Photons, has been integrated with a CCD97 EMCCD from e2v technologies into a scientific camera at the Laboratoire d'Astrophysique Experimentale (LAE), Universite de Montreal. This new camera achieves sub-electron read-out noise and very low Clock Induced Charge (CIC) levels, which are mandatory for extreme faint flux imaging. It has been characterized in laboratory and used on the Observatoire du Mont Megantic 1.6-m telescope. The performance of the camera is discussed and experimental data with the first scientific data are presented., Comment: 33 pages, 17 figures, accepted for publication in PASP

Published

2009

9. CCCP: A CCD Controller for Counting Photons

Author

Daigle, Olivier, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Carignan, Claude, Blais-Ouellette, Sebastien, Daigle, Olivier, Gach, Jean-Luc, Guillaume, Christian, Lessard, Simon, Carignan, Claude, and Blais-Ouellette, Sebastien

Abstract

CCCP, a CCD Controller for Counting Photons, is presented. This new controller uses a totally new clocking architecture and allows to drive the CCD in a novel way. Its design is optimized for the driving of EMCCDs at up to 20MHz of pixel rate and fast vertical transfer. Using this controller, the dominant source of noise of EMCCDs at low flux level and high frame rate, the Clock Induced Charges, were reduced to 0.001 - 0.0018 electron/pixel/frame (depending of the electron multiplying gain), making efficient photon counting possible. CCCP will be deployed in 2009 on the ESO NTT through the 3D-NTT1 project and on the SOAR through the BTFI project., Comment: 10 pages, 10 figures, to appear in "Ground-based and Airborne Instrumentation for Astronomy II" SPIE conference, Marseille, 23-28 June 2008

Published

2008

10. Evolution of Structure in Late-type Spiral Galaxies I: Ionized Gas Kinematics in NGC 628

Author

Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Daigle, Olivier, Hernandez, Olivier, Carignan, Claude, Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Daigle, Olivier, Hernandez, Olivier, and Carignan, Claude

Abstract

We study two dimensional Fabry-Perot interferometric observations of the nearby face-on late-type spiral galaxy, NGC 628, in order to analyse the ionized gas component of the interstellar medium. Covering the galaxy out to a radius larger than 12 kpc, and with a spatial sampling of 1.6 arcsec, we investigate the large-scale dynamics as well as feedback from individual HII regions into their surrounding medium. We study the role of gravitational perturbations along with that of external triggers which can disturb the kinematics and morphology of NGC 628. We verify the presence of an inner rapidly rotating disc-like component in NGC 628, which we interpret as caused by slow secular evolution of the large-scale spiral arms and oval structure. In combination with auxiliary data, we find indication for that gas is falling in from the outer parts towards the central regions, where a nuclear ring has formed at the location of the inner Lindblad resonance radius of an m=2 perturbation which could help build a pseudo-bulge in NGC 628. Moreover, we calculate radial profiles of the emission-line velocity dispersion which we use to study the role of feedback from individual HII regions. The mean velocity dispersion for the ionized gas (even when excluding pixels belonging to individual HII regions) is almost constant out to 12 kpc, although it varies from 14 to 20 km/s, with a steady decline in the outer parts. The current paper demonstrates a number of tools that we have developed for building a solid frame work for studying the evolution of structure in spiral galaxies using two dimensional kinematic observations., Comment: Accepted for publications in A&A. 13 pages, 7 figures, and including a calatogue of 376 HII regions with calibrated luminosities. Please find high-resolution version on http://www.astro.su.se/~kambiz/DOC/paper-N628.ps.gz

Published

2007

11. Structure and evolution of star-forming gas in late-type spiral galaxies

Author

Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Ostlin, Goran, Carignan, Claude, Chemin, Laurent, Daigle, Olivier, Hernandez, Olivier, Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Ostlin, Goran, Carignan, Claude, Chemin, Laurent, Daigle, Olivier, and Hernandez, Olivier

Abstract

We study two dimensional Fabry-Perot interferometric observations of the nearby face-on late-type spiral galaxy, NGC 628. We investigate the role of the individual HII regions together with the large-scale gravitational mechanisms which govern star formation and overall evolution in spiral galaxies. Our kinematical analysis (reinforced by literature maps in HI and CO at lower angular resolution) enables us to verify the presence of an inner rapidly rotating inner disk-like component which we attribute to long term secular evolution of the large-scale spiral arms and oval structure. We find that gas is falling in from the outer parts towards the bluer central regions. This could be an early phase in the formation of a pseudo-bulge. We find signatures of radial motions caused by an m=2 perturbation, which are likely to be responsible for the inflow of material forming the circumnuclear ring and the rapidly rotating inner structure., Comment: To appear in the proceedings for IAU symposium 241. "Stellar Populations as Building Blocks of Galaxies", Editors: R.F. Peletier, A. Vazdekis

Published

2007

12. Quantifying Resonant Structure in NGC 6946 from Two-dimensional Kinematics

Author

Fathi, Kambiz, Toonen, Silvia, Falcón-Barroso, Jesús, Beckman, John E., Hernandez, Olivier, Daigle, Olivier, Carignan, Claude, de Zeeuw, Tim, Fathi, Kambiz, Toonen, Silvia, Falcón-Barroso, Jesús, Beckman, John E., Hernandez, Olivier, Daigle, Olivier, Carignan, Claude, and de Zeeuw, Tim

Abstract

We study the two-dimensional kinematics of the H-alpha-emitting gas in the nearby barred Scd galaxy, NGC 6946, in order to determine the pattern speed of the primary m=2 perturbation mode. The pattern speed is a crucial parameter for constraining the internal dynamics, estimating the impact velocities of the gravitational perturbation at the resonance radii, and to set up an evolutionary scenario for NGC 6946. Our data allows us to derive the best fitting kinematic position angle and the geometry of the underlying gaseous disk, which we use to derive the pattern speed using the Tremaine-Weinberg method. We find a main pattern speed Omega_p=22 km/s/kpc, but our data clearly reveal the presence of an additional pattern speed Omega_p=47 km/s/kpc in a zone within 1.25 kpc of the nucleus. Using the epicyclic approximation, we deduce the location of the resonance radii and confirm that inside the outer Inner Lindblad Resonance radius of the main oval, a primary bar has formed rotating at more than twice the outer pattern speed. We further confirm that a nuclear bar has formed inside the Inner Lindblad Resonance radius of the primary bar, coinciding with the inner Inner Lindblad Resonance radius of the large-scale m=2 mode oval., Comment: Accepted for publication in ApJ Letters

Published

2007

13. Quantifying Resonant Structure in NGC 6946 from Two-dimensional Kinematics

Author

Fathi, Kambiz, Toonen, Silvia, Falcón-Barroso, Jesús, Beckman, John E., Hernandez, Olivier, Daigle, Olivier, Carignan, Claude, de Zeeuw, Tim, Fathi, Kambiz, Toonen, Silvia, Falcón-Barroso, Jesús, Beckman, John E., Hernandez, Olivier, Daigle, Olivier, Carignan, Claude, and de Zeeuw, Tim

Abstract

We study the two-dimensional kinematics of the H-alpha-emitting gas in the nearby barred Scd galaxy, NGC 6946, in order to determine the pattern speed of the primary m=2 perturbation mode. The pattern speed is a crucial parameter for constraining the internal dynamics, estimating the impact velocities of the gravitational perturbation at the resonance radii, and to set up an evolutionary scenario for NGC 6946. Our data allows us to derive the best fitting kinematic position angle and the geometry of the underlying gaseous disk, which we use to derive the pattern speed using the Tremaine-Weinberg method. We find a main pattern speed Omega_p=22 km/s/kpc, but our data clearly reveal the presence of an additional pattern speed Omega_p=47 km/s/kpc in a zone within 1.25 kpc of the nucleus. Using the epicyclic approximation, we deduce the location of the resonance radii and confirm that inside the outer Inner Lindblad Resonance radius of the main oval, a primary bar has formed rotating at more than twice the outer pattern speed. We further confirm that a nuclear bar has formed inside the Inner Lindblad Resonance radius of the primary bar, coinciding with the inner Inner Lindblad Resonance radius of the large-scale m=2 mode oval., Comment: Accepted for publication in ApJ Letters

Published

2007

14. Quantifying Resonant Structure in NGC 6946 from Two-dimensional Kinematics

Author

Fathi, Kambiz, Toonen, Silvia, Falcón-Barroso, Jesús, Beckman, John E., Hernandez, Olivier, Daigle, Olivier, Carignan, Claude, de Zeeuw, Tim, Fathi, Kambiz, Toonen, Silvia, Falcón-Barroso, Jesús, Beckman, John E., Hernandez, Olivier, Daigle, Olivier, Carignan, Claude, and de Zeeuw, Tim

Abstract

We study the two-dimensional kinematics of the H-alpha-emitting gas in the nearby barred Scd galaxy, NGC 6946, in order to determine the pattern speed of the primary m=2 perturbation mode. The pattern speed is a crucial parameter for constraining the internal dynamics, estimating the impact velocities of the gravitational perturbation at the resonance radii, and to set up an evolutionary scenario for NGC 6946. Our data allows us to derive the best fitting kinematic position angle and the geometry of the underlying gaseous disk, which we use to derive the pattern speed using the Tremaine-Weinberg method. We find a main pattern speed Omega_p=22 km/s/kpc, but our data clearly reveal the presence of an additional pattern speed Omega_p=47 km/s/kpc in a zone within 1.25 kpc of the nucleus. Using the epicyclic approximation, we deduce the location of the resonance radii and confirm that inside the outer Inner Lindblad Resonance radius of the main oval, a primary bar has formed rotating at more than twice the outer pattern speed. We further confirm that a nuclear bar has formed inside the Inner Lindblad Resonance radius of the primary bar, coinciding with the inner Inner Lindblad Resonance radius of the large-scale m=2 mode oval., Comment: Accepted for publication in ApJ Letters

Published

2007

15. Evolution of Structure in Late-type Spiral Galaxies I: Ionized Gas Kinematics in NGC 628

Author

Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Daigle, Olivier, Hernandez, Olivier, Carignan, Claude, Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Daigle, Olivier, Hernandez, Olivier, and Carignan, Claude

Abstract

We study two dimensional Fabry-Perot interferometric observations of the nearby face-on late-type spiral galaxy, NGC 628, in order to analyse the ionized gas component of the interstellar medium. Covering the galaxy out to a radius larger than 12 kpc, and with a spatial sampling of 1.6 arcsec, we investigate the large-scale dynamics as well as feedback from individual HII regions into their surrounding medium. We study the role of gravitational perturbations along with that of external triggers which can disturb the kinematics and morphology of NGC 628. We verify the presence of an inner rapidly rotating disc-like component in NGC 628, which we interpret as caused by slow secular evolution of the large-scale spiral arms and oval structure. In combination with auxiliary data, we find indication for that gas is falling in from the outer parts towards the central regions, where a nuclear ring has formed at the location of the inner Lindblad resonance radius of an m=2 perturbation which could help build a pseudo-bulge in NGC 628. Moreover, we calculate radial profiles of the emission-line velocity dispersion which we use to study the role of feedback from individual HII regions. The mean velocity dispersion for the ionized gas (even when excluding pixels belonging to individual HII regions) is almost constant out to 12 kpc, although it varies from 14 to 20 km/s, with a steady decline in the outer parts. The current paper demonstrates a number of tools that we have developed for building a solid frame work for studying the evolution of structure in spiral galaxies using two dimensional kinematic observations., Comment: Accepted for publications in A&A. 13 pages, 7 figures, and including a calatogue of 376 HII regions with calibrated luminosities. Please find high-resolution version on http://www.astro.su.se/~kambiz/DOC/paper-N628.ps.gz

Published

2007

16. Structure and evolution of star-forming gas in late-type spiral galaxies

Author

Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Ostlin, Goran, Carignan, Claude, Chemin, Laurent, Daigle, Olivier, Hernandez, Olivier, Fathi, Kambiz, Beckman, John E., Zurita, Almudena, Relano, Monica, Knapen, Johan H., Ostlin, Goran, Carignan, Claude, Chemin, Laurent, Daigle, Olivier, and Hernandez, Olivier

Abstract

We study two dimensional Fabry-Perot interferometric observations of the nearby face-on late-type spiral galaxy, NGC 628. We investigate the role of the individual HII regions together with the large-scale gravitational mechanisms which govern star formation and overall evolution in spiral galaxies. Our kinematical analysis (reinforced by literature maps in HI and CO at lower angular resolution) enables us to verify the presence of an inner rapidly rotating inner disk-like component which we attribute to long term secular evolution of the large-scale spiral arms and oval structure. We find that gas is falling in from the outer parts towards the bluer central regions. This could be an early phase in the formation of a pseudo-bulge. We find signatures of radial motions caused by an m=2 perturbation, which are likely to be responsible for the inflow of material forming the circumnuclear ring and the rapidly rotating inner structure., Comment: To appear in the proceedings for IAU symposium 241. "Stellar Populations as Building Blocks of Galaxies", Editors: R.F. Peletier, A. Vazdekis

Published

2007

17. Faint flux performance of an EMCCD

Author

Daigle, Olivier, Carignan, Claude, Blais-Ouellette, Sebastien, Daigle, Olivier, Carignan, Claude, and Blais-Ouellette, Sebastien

Abstract

Thorough numerical simulations were run to test the performance of three processing methods of the data coming out from an electron multiplying charge coupled device (EMCCD), or low light level charge coupled device (L3CCD), operated at high gain, under real operating conditions. The effect of read-out noise and spurious charges is tested under various low flux conditions (0.001 event/pixel/frame < f < 20 events/pixel/frame). Moreover, a method for finding the value of the gain applied by the EMCCD amplification register is also developed. It allows one to determine the gain value to an accuracy of a fraction of a percent from dark frames alone., Comment: 9 pages, 6 figures, to appear in SPIE conference proceedings vol 6276, "High Energy, Optical & Infrared Detectors for Astronomy II" Orlando FL USA, 24-31 May 2006. Code is available at http://www.astro.umontreal.ca/~odaigle/emccd

Published

2006

18. Faint flux performance of an EMCCD

Author

Daigle, Olivier, Carignan, Claude, Blais-Ouellette, Sebastien, Daigle, Olivier, Carignan, Claude, and Blais-Ouellette, Sebastien

Abstract

Thorough numerical simulations were run to test the performance of three processing methods of the data coming out from an electron multiplying charge coupled device (EMCCD), or low light level charge coupled device (L3CCD), operated at high gain, under real operating conditions. The effect of read-out noise and spurious charges is tested under various low flux conditions (0.001 event/pixel/frame < f < 20 events/pixel/frame). Moreover, a method for finding the value of the gain applied by the EMCCD amplification register is also developed. It allows one to determine the gain value to an accuracy of a fraction of a percent from dark frames alone., Comment: 9 pages, 6 figures, to appear in SPIE conference proceedings vol 6276, "High Energy, Optical & Infrared Detectors for Astronomy II" Orlando FL USA, 24-31 May 2006. Code is available at http://www.astro.umontreal.ca/~odaigle/emccd

Published

2006

19. L3CCD results in pure photon counting mode

Author

Daigle, Olivier, Gach, Jean-Luc, Guillaume, Christian, Carignan, Claude, Balard, Philippe, Boissin, Olivier, Daigle, Olivier, Gach, Jean-Luc, Guillaume, Christian, Carignan, Claude, Balard, Philippe, and Boissin, Olivier

Abstract

Theoretically, L3CCDs are perfect photon counting devices promising high quantum efficiency ($\sim$90%) and sub-electron readout noise ($\sigma$<0.1 e-). We discuss how a back-thinned 512x512 frame-transfer L3CCD (CCD97) camera operating in pure photon counting mode would behave based on experimental data. The chip is operated at high electromultiplication gain, high analogic gain and high frame rate. Its performance is compared with a modern photon counting camera (GaAs photocathode, QE $\sim$28%) to see if L3CCD technology, in its current state, could supersede photocathode-based devices., Comment: 9 pages, 9 figures, to appear in SPIE conference proceedings vol 5499, "Optical & IR Detectors for Astronomy" Glasgow UK, 21-24 June 2004

Published

2004

20. L3CCD results in pure photon counting mode

Author

Daigle, Olivier, Gach, Jean-Luc, Guillaume, Christian, Carignan, Claude, Balard, Philippe, Boissin, Olivier, Daigle, Olivier, Gach, Jean-Luc, Guillaume, Christian, Carignan, Claude, Balard, Philippe, and Boissin, Olivier

Abstract

Theoretically, L3CCDs are perfect photon counting devices promising high quantum efficiency ($\sim$90%) and sub-electron readout noise ($\sigma$<0.1 e-). We discuss how a back-thinned 512x512 frame-transfer L3CCD (CCD97) camera operating in pure photon counting mode would behave based on experimental data. The chip is operated at high electromultiplication gain, high analogic gain and high frame rate. Its performance is compared with a modern photon counting camera (GaAs photocathode, QE $\sim$28%) to see if L3CCD technology, in its current state, could supersede photocathode-based devices., Comment: 9 pages, 9 figures, to appear in SPIE conference proceedings vol 5499, "Optical & IR Detectors for Astronomy" Glasgow UK, 21-24 June 2004

Published

2004