High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system

L. M. Close; A. Puglisi; J. R. Males; C. Arcidiacono; A. Skemer; J. C. Guerra; L. Busoni; G. Brusa; E. Pinna; D. L. Miller; A. Riccardi; D. W. McCarthy; M. Xompero; C. Kulesa; F. Quiros-Pacheco; J. Argomedo; J. Brynnel; S. Esposito; F. Mannucci; K. Boutsia; L. Fini; D. J. Thompson; J. M. Hill; C. E. Woodward; R. Briguglio; T. J. Rodigas; R. Briguglio; P. Stefanini; G. Agapito; P. Hinz; K. Follette; R. Green

doi:10.1088/0004-637X/749/2/180

High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system

L. M. Close, A. Puglisi, J. R. Males, C. Arcidiacono, A. Skemer, J. C. Guerra, L. Busoni, G. Brusa, E. Pinna, D. L. Miller, A. Riccardi, D. W. McCarthy, M. Xompero, C. Kulesa, F. Quiros-Pacheco, J. Argomedo, J. Brynnel, S. Esposito, F. Mannucci, K. BoutsiaL. Fini, D. J. Thompson, J. M. Hill, C. E. Woodward, R. Briguglio, T. J. Rodigas, R. Briguglio, P. Stefanini, G. Agapito, P. Hinz, K. Follette, R. Green

Physics and Astronomy (Twin Cities)

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Abstract

The new 8.4m LBT adaptive secondary AO system, with its novel pyramid wavefront sensor, was used to produce very high Strehl (≳ 75% at 2.16 μm) near-infrared narrowband (Brγ: 2.16 μm and [Fe II]: 1.64 μm) images of 47young (∼1 Myr) Orion Trapezium θ¹ Ori cluster members. The inner ∼41 × 53″ of the cluster was imaged at spatial resolutions of ∼0″.050 (at 1.64 μm). A combination of high spatial resolution and high S/N yielded relative binary positions to ∼0.5 mas accuracies. Including previous speckle data, we analyze a 15year baseline of high-resolution observations of this cluster. We are now sensitive to relative proper motions of just ∼0.3 mas yr^-1 (0.6kms^-1 at 450 pc); this is a ∼7 × improvement in orbital velocity accuracy compared to previous efforts. We now detect clear orbital motions in the θ¹ Ori B₂ B₃ system of 4.9 ± 0.3kms^-1 and 7.2 ± 0.8kms^-1 in the θ¹ Ori A₁ A₂ system (with correlations of P.A. versus time at >99% confidence). All five members of the θ¹ Ori B system appear likely a gravitationally bound "mini-cluster." The very lowest mass member of the θ¹ Ori B system (B₄; mass ∼0.2 M_⊙) has, for the first time, a clearly detected motion (at 4.3 ± 2.0kms^-1; correlation = 99.7%) w.r.t. B₁. However, B₄ is most likely in a long-term unstable (non-hierarchical) orbit and may "soon" be ejected from this "mini-cluster." This "ejection" process could play a major role in the formation of low-mass stars and brown dwarfs.

Original language	English (US)
Article number	180
Journal	Astrophysical Journal
Volume	749
Issue number	2
DOIs	https://doi.org/10.1088/0004-637X/749/2/180
State	Published - Apr 20 2012

Keywords

binaries: general
brown dwarfs
instrumentation: adaptive optics
stars: evolution
stars: formation
stars: low-mass

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Close, L. M., Puglisi, A., Males, J. R., Arcidiacono, C., Skemer, A., Guerra, J. C., Busoni, L., Brusa, G., Pinna, E., Miller, D. L., Riccardi, A., McCarthy, D. W., Xompero, M., Kulesa, C., Quiros-Pacheco, F., Argomedo, J., Brynnel, J., Esposito, S., Mannucci, F., ... Green, R. (2012). High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system. Astrophysical Journal, 749(2), Article 180. https://doi.org/10.1088/0004-637X/749/2/180

Close, LM, Puglisi, A, Males, JR, Arcidiacono, C, Skemer, A, Guerra, JC, Busoni, L, Brusa, G, Pinna, E, Miller, DL, Riccardi, A, McCarthy, DW, Xompero, M, Kulesa, C, Quiros-Pacheco, F, Argomedo, J, Brynnel, J, Esposito, S, Mannucci, F, Boutsia, K, Fini, L, Thompson, DJ, Hill, JM, Woodward, CE, Briguglio, R, Rodigas, TJ, Briguglio, R, Stefanini, P, Agapito, G, Hinz, P, Follette, K & Green, R 2012, 'High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system', Astrophysical Journal, vol. 749, no. 2, 180. https://doi.org/10.1088/0004-637X/749/2/180

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title = "High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system",

abstract = "The new 8.4m LBT adaptive secondary AO system, with its novel pyramid wavefront sensor, was used to produce very high Strehl (≳ 75% at 2.16 μm) near-infrared narrowband (Brγ: 2.16 μm and [Fe II]: 1.64 μm) images of 47young (∼1 Myr) Orion Trapezium θ1 Ori cluster members. The inner ∼41 × 53″ of the cluster was imaged at spatial resolutions of ∼0″.050 (at 1.64 μm). A combination of high spatial resolution and high S/N yielded relative binary positions to ∼0.5 mas accuracies. Including previous speckle data, we analyze a 15year baseline of high-resolution observations of this cluster. We are now sensitive to relative proper motions of just ∼0.3 mas yr-1 (0.6kms-1 at 450 pc); this is a ∼7 × improvement in orbital velocity accuracy compared to previous efforts. We now detect clear orbital motions in the θ1 Ori B2 B3 system of 4.9 ± 0.3kms-1 and 7.2 ± 0.8kms-1 in the θ1 Ori A1 A2 system (with correlations of P.A. versus time at >99% confidence). All five members of the θ1 Ori B system appear likely a gravitationally bound {"}mini-cluster.{"} The very lowest mass member of the θ1 Ori B system (B4; mass ∼0.2 M⊙) has, for the first time, a clearly detected motion (at 4.3 ± 2.0kms-1; correlation = 99.7%) w.r.t. B1. However, B4 is most likely in a long-term unstable (non-hierarchical) orbit and may {"}soon{"} be ejected from this {"}mini-cluster.{"} This {"}ejection{"} process could play a major role in the formation of low-mass stars and brown dwarfs.",

keywords = "binaries: general, brown dwarfs, instrumentation: adaptive optics, stars: evolution, stars: formation, stars: low-mass",

author = "Close, {L. M.} and A. Puglisi and Males, {J. R.} and C. Arcidiacono and A. Skemer and Guerra, {J. C.} and L. Busoni and G. Brusa and E. Pinna and Miller, {D. L.} and A. Riccardi and McCarthy, {D. W.} and M. Xompero and C. Kulesa and F. Quiros-Pacheco and J. Argomedo and J. Brynnel and S. Esposito and F. Mannucci and K. Boutsia and L. Fini and Thompson, {D. J.} and Hill, {J. M.} and Woodward, {C. E.} and R. Briguglio and Rodigas, {T. J.} and R. Briguglio and P. Stefanini and G. Agapito and P. Hinz and K. Follette and R. Green",

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T1 - High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system

AU - Close, L. M.

AU - Puglisi, A.

AU - Males, J. R.

AU - Arcidiacono, C.

AU - Skemer, A.

AU - Guerra, J. C.

AU - Busoni, L.

AU - Brusa, G.

AU - Pinna, E.

AU - Miller, D. L.

AU - Riccardi, A.

AU - McCarthy, D. W.

AU - Xompero, M.

AU - Kulesa, C.

AU - Quiros-Pacheco, F.

AU - Argomedo, J.

AU - Brynnel, J.

AU - Esposito, S.

AU - Mannucci, F.

AU - Boutsia, K.

AU - Fini, L.

AU - Thompson, D. J.

AU - Hill, J. M.

AU - Woodward, C. E.

AU - Briguglio, R.

AU - Rodigas, T. J.

AU - Briguglio, R.

AU - Stefanini, P.

AU - Agapito, G.

AU - Hinz, P.

AU - Follette, K.

AU - Green, R.

PY - 2012/4/20

Y1 - 2012/4/20

N2 - The new 8.4m LBT adaptive secondary AO system, with its novel pyramid wavefront sensor, was used to produce very high Strehl (≳ 75% at 2.16 μm) near-infrared narrowband (Brγ: 2.16 μm and [Fe II]: 1.64 μm) images of 47young (∼1 Myr) Orion Trapezium θ1 Ori cluster members. The inner ∼41 × 53″ of the cluster was imaged at spatial resolutions of ∼0″.050 (at 1.64 μm). A combination of high spatial resolution and high S/N yielded relative binary positions to ∼0.5 mas accuracies. Including previous speckle data, we analyze a 15year baseline of high-resolution observations of this cluster. We are now sensitive to relative proper motions of just ∼0.3 mas yr-1 (0.6kms-1 at 450 pc); this is a ∼7 × improvement in orbital velocity accuracy compared to previous efforts. We now detect clear orbital motions in the θ1 Ori B2 B3 system of 4.9 ± 0.3kms-1 and 7.2 ± 0.8kms-1 in the θ1 Ori A1 A2 system (with correlations of P.A. versus time at >99% confidence). All five members of the θ1 Ori B system appear likely a gravitationally bound "mini-cluster." The very lowest mass member of the θ1 Ori B system (B4; mass ∼0.2 M⊙) has, for the first time, a clearly detected motion (at 4.3 ± 2.0kms-1; correlation = 99.7%) w.r.t. B1. However, B4 is most likely in a long-term unstable (non-hierarchical) orbit and may "soon" be ejected from this "mini-cluster." This "ejection" process could play a major role in the formation of low-mass stars and brown dwarfs.

AB - The new 8.4m LBT adaptive secondary AO system, with its novel pyramid wavefront sensor, was used to produce very high Strehl (≳ 75% at 2.16 μm) near-infrared narrowband (Brγ: 2.16 μm and [Fe II]: 1.64 μm) images of 47young (∼1 Myr) Orion Trapezium θ1 Ori cluster members. The inner ∼41 × 53″ of the cluster was imaged at spatial resolutions of ∼0″.050 (at 1.64 μm). A combination of high spatial resolution and high S/N yielded relative binary positions to ∼0.5 mas accuracies. Including previous speckle data, we analyze a 15year baseline of high-resolution observations of this cluster. We are now sensitive to relative proper motions of just ∼0.3 mas yr-1 (0.6kms-1 at 450 pc); this is a ∼7 × improvement in orbital velocity accuracy compared to previous efforts. We now detect clear orbital motions in the θ1 Ori B2 B3 system of 4.9 ± 0.3kms-1 and 7.2 ± 0.8kms-1 in the θ1 Ori A1 A2 system (with correlations of P.A. versus time at >99% confidence). All five members of the θ1 Ori B system appear likely a gravitationally bound "mini-cluster." The very lowest mass member of the θ1 Ori B system (B4; mass ∼0.2 M⊙) has, for the first time, a clearly detected motion (at 4.3 ± 2.0kms-1; correlation = 99.7%) w.r.t. B1. However, B4 is most likely in a long-term unstable (non-hierarchical) orbit and may "soon" be ejected from this "mini-cluster." This "ejection" process could play a major role in the formation of low-mass stars and brown dwarfs.

KW - binaries: general

KW - brown dwarfs

KW - instrumentation: adaptive optics

KW - stars: evolution

KW - stars: formation

KW - stars: low-mass

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UR - http://www.scopus.com/inward/citedby.url?scp=84859601553&partnerID=8YFLogxK

U2 - 10.1088/0004-637X/749/2/180

DO - 10.1088/0004-637X/749/2/180

M3 - Article

AN - SCOPUS:84859601553

SN - 0004-637X

VL - 749

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 180

ER -

High-resolution images of orbital motion in the Orion Trapezium cluster with the LBT AO system

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Keywords

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