Methanol Masers in the NGC6334F Star Forming Region Simon Ellingsen & Anne-Marie Brick University of Tasmania Centre for Astrophysics of Compact Objects.

Slides:

Advertisements

Similar presentations

High Resolution Observations in B1-IRS: ammonia, CCS and water masers Claire Chandler, NRAO José F. Gómez, LAEFF-INTA Thomas B. Kuiper, JPL José M. Torrelles,

Advertisements

Methanol maser polarization in W3(OH) Lisa Harvey-Smith Collaborators: Vlemmings, Cohen, Soria-Ruiz Joint Institute for VLBI in Europe.

Andrew Walsh, James Cook University Narrated by James Green (CASS) – thanks Jimi! (Psshhh aaahhh sssss push it) The Case for High Frequency Line Observations.

OH (1720 MHz) Masers: Tracers of Supernova Remnant / Molecular Cloud Interactions Crystal L. Brogan (NRAO) VLBA 10 th Anniversary Meeting June 8-12, 2003.

Gabriele Giovannini Dipartimento di Astronomia, Bologna University Istituto di Radioastronomia - INAF EVN observations of M87 as follow-up on a recent.

Mapping HI absorption at z=0.026 against a resolved background CSO Andy Biggs, Martin Zwaan, Jochen Liske European Southern Observatory Frank Briggs Australian.

A MOPRA CS(1-0) demonstration survey of the Galactic plane G. Fuller, N. Peretto, L. Quinn (University of Manchester UK), J. Green (ATNF ) All dust continuum.

21 November 2002Millimetre Workshop 2002, ATNF First ATCA results at millimetre wavelengths Vincent Minier School of Physics University of New South Wales.

M87 - WalkerVSOP-2 Symposium, Sagamihara, Japan Dec IMAGING A JET BASE - PROSPECTS WITH M87 R. Craig Walker NRAO Collaborators: Chun Ly (UCLA - was.

Ionized and neutral gas in the starburst galaxy NGC 5253 Australia Telescope National Facility (ATNF, Australia) Galaxies in the Local Volume – Sydney.

Multi-band Infrared Mapping of the Galactic Nuclear Region Q. D. Wang (PI), H. Dong, D. Calzetti (Umass), Cotera (SETI), S. Stolovy, M. Muno, J. Mauerhan,

The SMA CO(6-5) & 690 GHz Continuum Observations of Arp 220 Satoki Matsushita (ASIAA) D. Iono (CfA), C.-Y. Chou (ASIAA), M. Gurwell (CfA), P.-Y. Hsieh.

Portrait of a Forming Massive Protocluster: NGC6334 I(N) Todd Hunter (NRAO/North American ALMA Science Center) Collaborators: Crystal Brogan (NRAO) Ken.

A Polarization Study of the University of Michigan BL Lac Object Sample Askea O'Dowd 1, Denise Gabuzda 1, Margo Aller University College Cork 2 -

SMA Observations of the Binary Protostar System in L723 Josep Miquel Girart 1, Ramp Rao 2, Robert Estalella 3 & Josep Mª Masqué 3 1 Institut de Ciències.

Spitzer mid-IR image of the DR21 region in the Cygnus-X molecular complex Image Credit: NASA, Spitzer Space Telescope.

EGOs: Massive YSOs in IRDCs Ed Churchwell & Claudia Cyganowski with co-workers: Crystal Brogan, Todd Hunter, Barb Whitney Qizhou Zhang Dense Cores in Dark.

Mini Workshop on Star Formation and Astrochemistry. Barcelona, 2006 November 23 1 Robert Estalella, Aina Palau, Maite Beltrán (UB) Paul T. P. Ho (CfA),

Radio Astronomy And The Spiral Structure Of The Milky Way Jess Broderick Supervisor: Dr George Warr.

The SMA CO(6-5) & 690 GHz Continuum Observations of Arp 220 Satoki Matsushita (ASIAA) D. Iono (CfA), C.-Y. Chou (ASIAA), M. Gurwell (CfA), P.-Y. Hsieh.

Cambridge, June 13-16, 2005 A Study of Massive Proto- and Pre-stellar Candidates with the SEST Antenna Maite Beltrán Universitat de Barcelona J. Brand.

SMA Observations of High Mass Protostellar Objects (HMPOs) Submm Astronomy in Era of SMA June 15, 2005 Crystal Brogan (U. of Hawaii) Y. Shirley (NRAO),

Á L V A R O S Á N C H E Z M O N G E B A R C E L O N A - N O V E M B E R 23, 2006 Centimeter and Millimeter Emission from Selected High-Mass Star-Forming.

Variable SiO Maser Emission from V838 Mon Mark Claussen May 16, 2006 Nature of V838 Mon and its Light Echo.

Class I methanol masers in the regions of high-mass star-formation Max Voronkov Software Scientist – ASKAP In collaboration with: Caswell J.L., Ellingsen.

Compact HII regions toward Methanol Maser traced sources of Massive Star Formation Adam Avison (UK ARC, JBCA) Gary Fuller + MMB Collaboration.

Star Formation Research Now & With ALMA Debra Shepherd National Radio Astronomy Observatory ALMA Specifications: Today’s (sub)millimeter interferometers.

TURBULENCE AND HEATING OF MOLECULAR CLOUDS IN THE GALACTIC CENTER: Natalie Butterfield (UIowa) Cornelia Lang (UIowa) Betsy Mills (NRAO) Dominic Ludovici.

Masers observations of Magnetic fields during Massive Star Formation Wouter Vlemmings (Argelander-Institut für Astronomie, Bonn) with Gabriele Surcis,

Magnetic Fields Near the Young Stellar Object IRAS M. J Claussen (NRAO), A. P. Sarma (E. Kentucky Univ), H.A. Wootten (NRAO), K. B. Marvel (AAS),

Molecular Gas and Dust in SMGs in COSMOS Left panel is the COSMOS field with overlays of single-dish mm surveys. Right panel is a 0.3 sq degree map at.

Imaging Compact Supermassive Binary Black Holes with VLBI G. B. Taylor (UNM), C. Rodriguez (UNM), R. T. Zavala (USNO) A. B. Peck (CfA), L. K. Pollack (UCSC),

А.М. Sobolev (Ural Federal University, Ekaterinburg, Russia) S. Deguchi, W.D. Watson, D.M. Cragg, A.B. Ostrovskii, M.A. Voronkov, E.C. Sutton, V.S. Strelnitskii,

VLASS – Galactic Science Life cycle of star formation in our Galaxy as a proxy for understanding the Local Universe legacy science Infrared GLIMPSE survey.

GASKAP The Galactic ASKAP Survey On behalf of the GASKAP team Dr Andrew Walsh.

The Role of Parkes in Southern Maser VLBI Simon Ellingsen University of Tasmania.

Great Barriers in High Mass Star Formation, Townsville, Australia, Sept 16, 2010 Patrick Koch Academia Sinica, Institute of Astronomy and Astrophysics.

Masers as evolutionary tracers of high-mass star formation Shari BreenSimon Ellingsen Bolton FellowJames Caswell 15th September 2010.

CARMA Large Area Star-formation SurveY  Completing observations of 5 regions of square arcminutes with 7” angular resolution in the J=1-0 transitions.

Imaging Molecular Gas in a Nearby Starburst Galaxy NGC 3256, a nearby luminous infrared galaxy, as imaged by the SMA. (Left) Integrated CO(2-1) intensity.

The MOJAVE Program: Studying the Relativistic Kinematics of AGN Jets Jansky Postdoctoral Fellow National Radio Astronomy Observatory Matthew Lister.

Studying Young Stellar Objects with the EVLA

Class I methanol masers and evolutionary stage of star- formation Max Voronkov Software Scientist – ASKAP In collaboration with: Caswell J.L., Ellingsen.

Observing Strategies at cm wavelengths Making good decisions Jessica Chapman Synthesis Workshop May 2003.

Methanol maser and 3 mm line studies of EGOs Xi Chen (ShAO) 2009 East Asia VLBI Workshop, March , Seoul Simon Ellingsen (UTAS) Zhi-Qiang Shen.

Masers Surveys with Mopra: Which is best 7 or 3 mm? Simon Ellingsen, Maxim Voronkov & Shari Breen 3 November 2008.

Submillimeter Array CH3OH A Cluster of Highly Collimated and Young Bipolar Outflows Emanating from OMC1 South. Luis A. Zapata 1,2, Luis.

Using masers as evolutionary probes in the G333 GMC (as well as some follow up work) Shari Breen, Simon Ellingsen, Ben Lewis, Melanie Johnston-Hollitt,

Maite Beltrán Osservatorio Astrofisico di Arcetri The intringuing hot molecular core G

Multiple YSOs in the low-mass star-forming region IRAS CONTENT Introduction Previous work on IRAS Observations Results Discussion.

Nichol Cunningham. Why? Massive stars are the building blocks of the universe. Continuously chemically enrich our galaxy. Release massive amounts of energy.

GBT Future Instrumentation Workshop Fixing the frequency coverage hole in C-Band Jagadheep D. Pandian Cornell University.

Early O-Type Stars in the W51-IRS2 Cluster A template to study the most massive (proto)stars Luis Zapata Max Planck Institut für Radioastronomie, GERMANY.

Associating Sites of Methanol Masers at 6.7 GHz in Onsala East Asia VLBI Workshop, Seoul, Korea 2009, 3, Sugiyama, Koichiro 杉山孝一郎 스기야마 코이치로.

1)OB star formation: pros and contras of maser studies 2)Are maser (VLBI) studies “obsolete”? 3)Association of masers with jets/disks: some examples 4)Conclusion:

High Redshift Galaxies/Galaxy Surveys ALMA Community Day April 18, 2011 Neal A. Miller University of Maryland.

Cosmic Masers Chris Phillips CSIRO / ATNF. What is a Maser? Microwave Amplification by Stimulated Emission of Radiation Microwave version of a LASER Occur.

ALMA Cycle 0 Observation of Orion Radio Source I Tomoya Hirota (Mizusawa VLBI observatory, NAOJ) Mikyoung Kim (KVN,KASI) Yasutaka Kurono (ALMA,NAOJ) Mareki.

Massive Star-Formation in G studied by means of Maser VLBI and Thermal Interferometric Observations Luca Moscadelli INAF – Osservatorio Astrofisico.

Lecture 3 – High Mass Star Formation

Surveys of the Galactic Plane for Massive Young Stellar Objects

Portrait of a Forming Massive Protocluster: NGC6334 I(N)

High Resolution Submm Observations of Massive Protostars

Class I methanol masers and shocks

MASER Microwave Amplification by Stimulated Emission of Radiation

107/108 GHz methanol masers with ALMA

Max Voronkov Software Scientist – ASKAP 14th December 2010

Millimeter Megamasers and AGN Feedback

A magnetically collimated jet from an evolved star

EVN observations of OH maser burst in OH

Presentation transcript:

Methanol Masers in the NGC6334F Star Forming Region Simon Ellingsen & Anne-Marie Brick University of Tasmania Centre for Astrophysics of Compact Objects

Methanol Masers in the NGC6334F Star Forming Region Overview NGC6334, a very well studied star forming region. Methanol masers in NGC6334F - so many transitions Multi-transition methanol maser studies at high resolution : –LBA observations 6.7 and 12.2 GHz –VLBA observations 12.2 and 23.1 GHz The polarization properties of the methanol masers in NGC6334F

Methanol Masers in the NGC6334F Star Forming Region NGC6334 The Southern star forming region NGC6334 is one of the most active OB star forming regions in the Galaxy. It contains 6 different high-mass star forming sites detected at radio/infrared wavelengths, and different evolutionary phases. The sources in the north-eastern part of the complex are the most deeply embedded in the infrared and the most compact radio sources => The youngest regions. NGC6334F (also known as NGC6334I) is a cometary ultra-compact HII region with strong methanol masers. NGC6334I(N) is only detected at sub-mm wavelengths, but has strong thermal ammonia, class I methanol and weaker class II methanol masers.

Methanol Masers in the NGC6334F Star Forming Region NGC6334 : The Cat’s Paw Nebula. Optical emission nebula taken with the Blanco 4m Cerro Tololo Inter- American Observatory

Methanol Masers in the NGC6334F Star Forming Region SCUBA 850  m (contours) and optical (greyscale) from Matthews et al. 2008

Methanol Masers in the NGC6334F Star Forming Region NGC6334 The Southern star forming region NGC6334 is one of the most active OB star forming regions in the Galaxy. It contains 6 different high-mass star forming sites detected at radio/infrared wavelengths, and different evolutionary phases. The sources in the north-eastern part of the complex are the most deeply embedded in the infrared and the most compact radio sources => The youngest regions. NGC6334F (also known as NGC6334I) is a cometary ultra-compact HII region with strong methanol masers. NGC6334I(N) is only detected at sub-mm wavelengths, but has strong thermal ammonia, class I methanol and weaker class II methanol masers.

Methanol Masers in the NGC6334F Star Forming Region NGC6334F/NGC6334I Is a strong, cometary UCHII region (integrated flux density ~2.8 Jy at 8.5 GHz). It is one of the strongest 6.7 GHz methanol maser sources (peak flux density of around 3300 Jy). It shares many characteristics with the archetypal star forming region W3(OH). It shows maser emission in a large number of class II methanol maser transitions, many of which are rarely seen in other sources. In addition to the transitions shown here, class II methanol masers are also observed from the 37.7, 38.2 and 38.4 GHz transitions.

Methanol Masers in the NGC6334F Star Forming Region NGC6334F : ATCA 8.5 GHz radio continuum with the location of 6.7 GHz methanol masers indicated with blue crosses (Ellingsen, Norris & McCulloch 1996)

Methanol Masers in the NGC6334F Star Forming Region NGC6334F/NGC6334I Is a strong, cometary UCHII region (integrated flux density ~2.8 Jy at 8.5 GHz). It is one of the strongest 6.7 GHz methanol maser sources (peak flux density of around 3300 Jy). It shares many characteristics with the archetypal star forming region W3(OH). It shows maser emission in a large number of class II methanol maser transitions, many of which are rarely seen in other sources. In addition to the transitions shown here, class II methanol masers are also observed from the 37.7, 38.2 and 38.4 GHz transitions.

Methanol Masers in the NGC6334F Star Forming Region NGC6334F : At least 8 different class II methanol maser transitions are observed towards this source, 5 of these are shown here (Ellingsen et al. 2004)

Methanol Masers in the NGC6334F Star Forming Region NGC6334F/NGC6334I Is a strong, cometary UCHII region (integrated flux density ~2.8 Jy at 8.5 GHz). It is one of the strongest 6.7 GHz methanol maser sources (peak flux density of around 3300 Jy). It shares many characteristics with the archetypal star forming region W3(OH). It shows maser emission in a large number of class II methanol maser transitions, many of which are rarely seen in other sources. In addition to the transitions shown here, class II methanol masers are also observed from the 37.7, 38.2 and 38.4 GHz transitions.

Methanol Masers in the NGC6334F Star Forming Region Multi-transition modelling Cragg et al. (2001) and Ellingsen et al. (2004) have used the observations of multiple class II methanol maser transitions to test pumping models and constrain physical conditions. These models suggest the following physical parameters for the masing region : n H2 = 10 6 cm -3, T gas = 30K, T dust = 150K, beaming factor around 10. These parameters are all very plausible for young high- mass star formation regions. The modeling assumes that the emission from the different transitions is coincident/cospatial and ignores temporal variability. The first of these is the most critical and can be tested through VLBI observations.

Methanol Masers in the NGC6334F Star Forming Region LBA Observations VLBI observations of NGC6334F at 6.7 and 12.2 GHz were made using the LBA in May 1992 with a MKII system (Parkes, Mopra, ATCA, Hobart, Tid). They reveal 3 clusters of masers at 6.7 and 2 at 12.2 GHz. Approximately half of the 6.7 GHz methanol maser spots are coincident with a 12.2 GHz maser at the same velocity (RMS positional different 4 mas). The 6.7 GHz masers are typically a factor of greater in integrated flux density. Class II methanol masers start to become resolved on baselines of 100 km or less. Typically only a few percent of the single-dish peak flux density is detected on baselines of 1000 km or longer (scales of < 10 mas).

Methanol Masers in the NGC6334F Star Forming Region NGC6334F : ATCA 8.5 GHz radio continuum with the location of 6.7 GHz methanol masers indicated with blue crosses (Ellingsen, Norris & McCulloch 1996) NW C S

Methanol Masers in the NGC6334F Star Forming Region LBA Observations VLBI observations of NGC6334F at 6.7 and 12.2 GHz were made using the LBA in May 1992 with a MKII system (Parkes, Mopra, ATCA, Hobart, Tid). They reveal 3 clusters of masers at 6.7 and 2 at 12.2 GHz. Approximately half of the 6.7 GHz methanol maser spots are coincident with a 12.2 GHz maser at the same velocity (RMS positional different 4 mas). The 6.7 GHz masers are typically a factor of greater in integrated flux density. Class II methanol masers start to become resolved on baselines of 100 km or less. Typically only a few percent of the single-dish peak flux density is detected on baselines of 1000 km or longer (scales of < 10 mas).

Methanol Masers in the NGC6334F Star Forming Region NGC6334F : Comparison of the 6.7 and 12.2 GHz methanol masers shows that the real situation is complex.

Methanol Masers in the NGC6334F Star Forming Region LBA Observations VLBI observations of NGC6334F at 6.7 and 12.2 GHz were made using the LBA in May 1992 with a MKII system (Parkes, Mopra, ATCA, Hobart, Tid). They reveal 3 clusters of masers at 6.7 and 2 at 12.2 GHz. Approximately half of the 6.7 GHz methanol maser spots are coincident with a 12.2 GHz maser at the same velocity (RMS positional different 4 mas). The 6.7 GHz masers are typically a factor of greater in integrated flux density. Class II methanol masers start to become resolved on baselines of 100 km or less. Typically only a few percent of the single-dish peak flux density is detected on baselines of 1000 km or longer (scales of < 10 mas).

Methanol Masers in the NGC6334F Star Forming Region Visibility versus baseline for the strongest 6.7 and 12.2 GHz masers in NGC6334F. The visibility versus baseline information is not consistent with a Gaussian spatial distribution.

Methanol Masers in the NGC6334F Star Forming Region VLBA Observations Phase referenced VLBA observations of NGC6334F at 12.2 and 23.1 GHz were made May The purpose of these observations was to both investigate the polarization properties of the 12.2 GHz masers and the relative positions of the emission from the two transitions. Obtaining full-polarization products, adversely impacted the spectral resolution. A total of nine 12.2 GHz spots were detected in 1992, eight of these were also observed in The 23.1 GHz maser was found to be coincident with the strongest 6.7/12.2 GHz maser in the central cluster. The 23.1 GHz maser is highly resolved and only detected on the shortest baselines

Methanol Masers in the NGC6334F Star Forming Region Visibility versus baseline for the strongest 12.2 and 23.1 GHz methanol masers from the VLBA observations. Note: the amplitude scale for the 23.1 GHz observations is not calibrated.

Methanol Masers in the NGC6334F Star Forming Region Polarization of NGC6334F masers The ATCA has been used to measure the polarization properties of a number of 6.7 GHz methanol masers, including NGC6334F (Ellingsen 2002). Linear polarization at levels of a few percent is commonly observed in strong 6.7 GHz methanol masers. In NGC6334F the some spectral features show up to 10% linear polarization (comparable to the highest level observed in a 6.7 GHz methanol maser). Other spectral features have no linear polarization at the 0.5% level. The polarization can be used to infer the magnetic field direction (perpendicular to the P.A.). Here it shows the field is perpendicular to the elongation in the spatial dist.

Methanol Masers in the NGC6334F Star Forming Region From the top : Stokes I, Q, U and V I Q V U I Q V U

Methanol Masers in the NGC6334F Star Forming Region Polarization of NGC6334F masers The ATCA has been used to measure the polarization properties of a number of 6.7 GHz methanol masers, including NGC6334F (Ellingsen 2002). Linear polarization at levels of a few percent is commonly observed in strong 6.7 GHz methanol masers. In NGC6334F the some spectral features show up to 10% linear polarization (comparable to the highest level observed in a 6.7 GHz methanol maser). Other spectral features have no linear polarization at the 0.5% level. The polarization can be used to infer the magnetic field direction (perpendicular to the P.A.). Here it shows the field is perpendicular to the elongation in the spatial dist.

Methanol Masers in the NGC6334F Star Forming Region

SMA observations by Hunter et al. (2006). Blue symbols = water masers, Black squares = methanol masers, Green symbols = ammonia, Greyscale = 1.3mm continuum

Methanol Masers in the NGC6334F Star Forming Region Conclusions The assumption that the intensity distribution of co-spatial maser spots is the same appears to be incorrect. The two main methanol maser clusters in NGC6334F trace quite different objects. The B field inferred from the maser polarization is roughly perpendicular to the elongation in the spatial distribution (should be checked with polarization VLBI). We are in the process of measuring the proper motion/parallax to NGC6334F (observations in Nov 08 and Feb 09). This will shed further light on the kinematics and physics of this fascinating source.

Methanol Masers in the NGC6334F Star Forming Region NGC6334 : The Cat’s Paw Nebula. 2MASS image

Methanol Masers in the NGC6334F Star Forming Region NGC6334 : 450  m APEX image. The central bright peak is NGC6334F (also known as NGC6334I) and north of that is NGC6334I(N)

Methanol Masers in the NGC6334F Star Forming Region NGC6334F : GLIMPSEII 3 colour image (3.6, 5.8 and 8.0  m. The red crosses show the location of the C, NW and I(N) associated 6.7 GHz methanol masers.