The molecular hydrogen explorer H2EX

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The molecular hydrogen explorer H2EX. / Boulanger, F.; Maillard, J. P.; Appleton, P.; Falgarone, E.; Lagache, G.; Schulz, B.; Wakker, B. P.; Bressan, A.; Cernicharo, J.; Charmandaris, V.; Drissen, L.; Helou, G.; Henning, T.; Lim, T. L.; Valentjin, E. A.; Abergel, A.; Bourlot, J. Le; Bouzit, M.; Cabrit, S.; Combes, F.; Deharveng, J. M.; Desmet, P.; Dole, H.; Dumesnil, C.; Dutrey, A.; Fourmond, J. J.; Gavila, E.; Grangé, R.; Gry, C.; Guillard, P.; Guilloteau, S.; Habart, E.; Huet, B.; Joblin, C.; Langer, M.; Longval, Y.; Madden, S. C.; Martin, C.; Miville-Deschênes, M. A.; Pineau Des Forêts, G.; Pointecouteau, E.; Roussel, H.; Tresse, L.; Verstraete, L.; Viallefond, F.; Bertoldi, F.; Jorgensen, J.; Bouwman, J.; Carmona, A.; Krause, O.; Baruffolo, A.; Bonoli, C.; Bortoletto, F.; Danese, L.; Granato, G. L.; Pernechele, C.; Rampazzo, R.; Silva, L.; Zotti, G. De; Pardo, J.; Spaans, M.; Van Der Tak, F. F.S.; Wild, W.; Ferlet, M. J.; Ramsay Howat, S. K.; Smith, M. D.; Swinyard, B.; Wright, G. S.; Joncas, G.; Martin, P. G.; Davis, C. J.; Draine, B. T.; Goldsmith, P. F.; Mainzer, A. K.; Ogle, P.; Rinehart, S. A.; Stacey, G. J.; Tielens, A. G.G.M.

In: Experimental Astronomy, Vol. 23, No. 1, 01.03.2009, p. 277-302.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Boulanger, F, Maillard, JP, Appleton, P, Falgarone, E, Lagache, G, Schulz, B, Wakker, BP, Bressan, A, Cernicharo, J, Charmandaris, V, Drissen, L, Helou, G, Henning, T, Lim, TL, Valentjin, EA, Abergel, A, Bourlot, JL, Bouzit, M, Cabrit, S, Combes, F, Deharveng, JM, Desmet, P, Dole, H, Dumesnil, C, Dutrey, A, Fourmond, JJ, Gavila, E, Grangé, R, Gry, C, Guillard, P, Guilloteau, S, Habart, E, Huet, B, Joblin, C, Langer, M, Longval, Y, Madden, SC, Martin, C, Miville-Deschênes, MA, Pineau Des Forêts, G, Pointecouteau, E, Roussel, H, Tresse, L, Verstraete, L, Viallefond, F, Bertoldi, F, Jorgensen, J, Bouwman, J, Carmona, A, Krause, O, Baruffolo, A, Bonoli, C, Bortoletto, F, Danese, L, Granato, GL, Pernechele, C, Rampazzo, R, Silva, L, Zotti, GD, Pardo, J, Spaans, M, Van Der Tak, FFS, Wild, W, Ferlet, MJ, Ramsay Howat, SK, Smith, MD, Swinyard, B, Wright, GS, Joncas, G, Martin, PG, Davis, CJ, Draine, BT, Goldsmith, PF, Mainzer, AK, Ogle, P, Rinehart, SA, Stacey, GJ & Tielens, AGGM 2009, 'The molecular hydrogen explorer H2EX', Experimental Astronomy, vol. 23, no. 1, pp. 277-302. https://doi.org/10.1007/s10686-008-9108-7

APA

Boulanger, F., Maillard, J. P., Appleton, P., Falgarone, E., Lagache, G., Schulz, B., Wakker, B. P., Bressan, A., Cernicharo, J., Charmandaris, V., Drissen, L., Helou, G., Henning, T., Lim, T. L., Valentjin, E. A., Abergel, A., Bourlot, J. L., Bouzit, M., Cabrit, S., ... Tielens, A. G. G. M. (2009). The molecular hydrogen explorer H2EX. Experimental Astronomy, 23(1), 277-302. https://doi.org/10.1007/s10686-008-9108-7

Vancouver

Boulanger F, Maillard JP, Appleton P, Falgarone E, Lagache G, Schulz B et al. The molecular hydrogen explorer H2EX. Experimental Astronomy. 2009 Mar 1;23(1):277-302. https://doi.org/10.1007/s10686-008-9108-7

Author

Boulanger, F. ; Maillard, J. P. ; Appleton, P. ; Falgarone, E. ; Lagache, G. ; Schulz, B. ; Wakker, B. P. ; Bressan, A. ; Cernicharo, J. ; Charmandaris, V. ; Drissen, L. ; Helou, G. ; Henning, T. ; Lim, T. L. ; Valentjin, E. A. ; Abergel, A. ; Bourlot, J. Le ; Bouzit, M. ; Cabrit, S. ; Combes, F. ; Deharveng, J. M. ; Desmet, P. ; Dole, H. ; Dumesnil, C. ; Dutrey, A. ; Fourmond, J. J. ; Gavila, E. ; Grangé, R. ; Gry, C. ; Guillard, P. ; Guilloteau, S. ; Habart, E. ; Huet, B. ; Joblin, C. ; Langer, M. ; Longval, Y. ; Madden, S. C. ; Martin, C. ; Miville-Deschênes, M. A. ; Pineau Des Forêts, G. ; Pointecouteau, E. ; Roussel, H. ; Tresse, L. ; Verstraete, L. ; Viallefond, F. ; Bertoldi, F. ; Jorgensen, J. ; Bouwman, J. ; Carmona, A. ; Krause, O. ; Baruffolo, A. ; Bonoli, C. ; Bortoletto, F. ; Danese, L. ; Granato, G. L. ; Pernechele, C. ; Rampazzo, R. ; Silva, L. ; Zotti, G. De ; Pardo, J. ; Spaans, M. ; Van Der Tak, F. F.S. ; Wild, W. ; Ferlet, M. J. ; Ramsay Howat, S. K. ; Smith, M. D. ; Swinyard, B. ; Wright, G. S. ; Joncas, G. ; Martin, P. G. ; Davis, C. J. ; Draine, B. T. ; Goldsmith, P. F. ; Mainzer, A. K. ; Ogle, P. ; Rinehart, S. A. ; Stacey, G. J. ; Tielens, A. G.G.M. / The molecular hydrogen explorer H2EX. In: Experimental Astronomy. 2009 ; Vol. 23, No. 1. pp. 277-302.

Bibtex

@article{7f9d2431aa3e4fec86125f2e8abe6e59,

title = "The molecular hydrogen explorer H2EX",

abstract = "The Molecular Hydrogen Explorer, H2EX, was proposed in response to the ESA 2015 - 2025 Cosmic Vision Call as a medium class space mission with NASA and CSA participations. The mission, conceived to understand the formation of galaxies, stars and planets from molecular hydrogen, is designed to observe the first rotational lines of the H2 molecule (28.2, 17.0, 12.3 and 9.7 μm) over a wide field, and at high spectral resolution. H2EX can provide an inventory of warm (≥ 100 K) molecular gas in a broad variety of objects, including nearby young star clusters, galactic molecular clouds, active galactic nuclei, local and distant galaxies. The rich array of molecular, atomic and ionic lines, as well as solid state features available in the 8 to 29 μm spectral range brings additional science dimensions to H2EX. We present the optical and mechanical design of the H2EX payload based on an innovative Imaging Fourier Transform Spectrometer fed by a 1.2 m telescope. The 20'×20' field of view is imaged on two 1024×1024 Si:As detectors. The maximum resolution of 0.032 cm∈-∈1 (full width at half maximum) means a velocity resolution of 10 km s∈-∈1 for the 0 - 0 S(3) line at 9.7 μm. This instrument offers the large field of view necessary to survey extended emission in the Galaxy and local Universe galaxies as well as to perform unbiased extragalactic and circumstellar disks surveys. The high spectral resolution makes H2EX uniquely suited to study the dynamics of H 2 in all these environments. The mission plan is made of seven wide-field spectro-imaging legacy programs, from the cosmic web to galactic young star clusters, within a nominal two years mission. The payload has been designed to re-use the Planck platform and passive cooling design.",

keywords = "Astronomical instrumentation, Disks, Galaxies, ISM, Star formation",

author = "F. Boulanger and Maillard, {J. P.} and P. Appleton and E. Falgarone and G. Lagache and B. Schulz and Wakker, {B. P.} and A. Bressan and J. Cernicharo and V. Charmandaris and L. Drissen and G. Helou and T. Henning and Lim, {T. L.} and Valentjin, {E. A.} and A. Abergel and Bourlot, {J. Le} and M. Bouzit and S. Cabrit and F. Combes and Deharveng, {J. M.} and P. Desmet and H. Dole and C. Dumesnil and A. Dutrey and Fourmond, {J. J.} and E. Gavila and R. Grang{\'e} and C. Gry and P. Guillard and S. Guilloteau and E. Habart and B. Huet and C. Joblin and M. Langer and Y. Longval and Madden, {S. C.} and C. Martin and Miville-Desch{\^e}nes, {M. A.} and {Pineau Des For{\^e}ts}, G. and E. Pointecouteau and H. Roussel and L. Tresse and L. Verstraete and F. Viallefond and F. Bertoldi and J. Jorgensen and J. Bouwman and A. Carmona and O. Krause and A. Baruffolo and C. Bonoli and F. Bortoletto and L. Danese and Granato, {G. L.} and C. Pernechele and R. Rampazzo and L. Silva and Zotti, {G. De} and J. Pardo and M. Spaans and {Van Der Tak}, {F. F.S.} and W. Wild and Ferlet, {M. J.} and {Ramsay Howat}, {S. K.} and Smith, {M. D.} and B. Swinyard and Wright, {G. S.} and G. Joncas and Martin, {P. G.} and Davis, {C. J.} and Draine, {B. T.} and Goldsmith, {P. F.} and Mainzer, {A. K.} and P. Ogle and Rinehart, {S. A.} and Stacey, {G. J.} and Tielens, {A. G.G.M.}",

year = "2009",

month = mar,

day = "1",

doi = "10.1007/s10686-008-9108-7",

language = "English",

volume = "23",

pages = "277--302",

journal = "Space Science Instrumentation",

issn = "0004-640X",

publisher = "Springer",

number = "1",

}

RIS

TY - JOUR

T1 - The molecular hydrogen explorer H2EX

AU - Boulanger, F.

AU - Maillard, J. P.

AU - Appleton, P.

AU - Falgarone, E.

AU - Lagache, G.

AU - Schulz, B.

AU - Wakker, B. P.

AU - Bressan, A.

AU - Cernicharo, J.

AU - Charmandaris, V.

AU - Drissen, L.

AU - Helou, G.

AU - Henning, T.

AU - Lim, T. L.

AU - Valentjin, E. A.

AU - Abergel, A.

AU - Bourlot, J. Le

AU - Bouzit, M.

AU - Cabrit, S.

AU - Combes, F.

AU - Deharveng, J. M.

AU - Desmet, P.

AU - Dole, H.

AU - Dumesnil, C.

AU - Dutrey, A.

AU - Fourmond, J. J.

AU - Gavila, E.

AU - Grangé, R.

AU - Gry, C.

AU - Guillard, P.

AU - Guilloteau, S.

AU - Habart, E.

AU - Huet, B.

AU - Joblin, C.

AU - Langer, M.

AU - Longval, Y.

AU - Madden, S. C.

AU - Martin, C.

AU - Miville-Deschênes, M. A.

AU - Pineau Des Forêts, G.

AU - Pointecouteau, E.

AU - Roussel, H.

AU - Tresse, L.

AU - Verstraete, L.

AU - Viallefond, F.

AU - Bertoldi, F.

AU - Jorgensen, J.

AU - Bouwman, J.

AU - Carmona, A.

AU - Krause, O.

AU - Baruffolo, A.

AU - Bonoli, C.

AU - Bortoletto, F.

AU - Danese, L.

AU - Granato, G. L.

AU - Pernechele, C.

AU - Rampazzo, R.

AU - Silva, L.

AU - Zotti, G. De

AU - Pardo, J.

AU - Spaans, M.

AU - Van Der Tak, F. F.S.

AU - Wild, W.

AU - Ferlet, M. J.

AU - Ramsay Howat, S. K.

AU - Smith, M. D.

AU - Swinyard, B.

AU - Wright, G. S.

AU - Joncas, G.

AU - Martin, P. G.

AU - Davis, C. J.

AU - Draine, B. T.

AU - Goldsmith, P. F.

AU - Mainzer, A. K.

AU - Ogle, P.

AU - Rinehart, S. A.

AU - Stacey, G. J.

AU - Tielens, A. G.G.M.

PY - 2009/3/1

Y1 - 2009/3/1

N2 - The Molecular Hydrogen Explorer, H2EX, was proposed in response to the ESA 2015 - 2025 Cosmic Vision Call as a medium class space mission with NASA and CSA participations. The mission, conceived to understand the formation of galaxies, stars and planets from molecular hydrogen, is designed to observe the first rotational lines of the H2 molecule (28.2, 17.0, 12.3 and 9.7 μm) over a wide field, and at high spectral resolution. H2EX can provide an inventory of warm (≥ 100 K) molecular gas in a broad variety of objects, including nearby young star clusters, galactic molecular clouds, active galactic nuclei, local and distant galaxies. The rich array of molecular, atomic and ionic lines, as well as solid state features available in the 8 to 29 μm spectral range brings additional science dimensions to H2EX. We present the optical and mechanical design of the H2EX payload based on an innovative Imaging Fourier Transform Spectrometer fed by a 1.2 m telescope. The 20'×20' field of view is imaged on two 1024×1024 Si:As detectors. The maximum resolution of 0.032 cm∈-∈1 (full width at half maximum) means a velocity resolution of 10 km s∈-∈1 for the 0 - 0 S(3) line at 9.7 μm. This instrument offers the large field of view necessary to survey extended emission in the Galaxy and local Universe galaxies as well as to perform unbiased extragalactic and circumstellar disks surveys. The high spectral resolution makes H2EX uniquely suited to study the dynamics of H 2 in all these environments. The mission plan is made of seven wide-field spectro-imaging legacy programs, from the cosmic web to galactic young star clusters, within a nominal two years mission. The payload has been designed to re-use the Planck platform and passive cooling design.

AB - The Molecular Hydrogen Explorer, H2EX, was proposed in response to the ESA 2015 - 2025 Cosmic Vision Call as a medium class space mission with NASA and CSA participations. The mission, conceived to understand the formation of galaxies, stars and planets from molecular hydrogen, is designed to observe the first rotational lines of the H2 molecule (28.2, 17.0, 12.3 and 9.7 μm) over a wide field, and at high spectral resolution. H2EX can provide an inventory of warm (≥ 100 K) molecular gas in a broad variety of objects, including nearby young star clusters, galactic molecular clouds, active galactic nuclei, local and distant galaxies. The rich array of molecular, atomic and ionic lines, as well as solid state features available in the 8 to 29 μm spectral range brings additional science dimensions to H2EX. We present the optical and mechanical design of the H2EX payload based on an innovative Imaging Fourier Transform Spectrometer fed by a 1.2 m telescope. The 20'×20' field of view is imaged on two 1024×1024 Si:As detectors. The maximum resolution of 0.032 cm∈-∈1 (full width at half maximum) means a velocity resolution of 10 km s∈-∈1 for the 0 - 0 S(3) line at 9.7 μm. This instrument offers the large field of view necessary to survey extended emission in the Galaxy and local Universe galaxies as well as to perform unbiased extragalactic and circumstellar disks surveys. The high spectral resolution makes H2EX uniquely suited to study the dynamics of H 2 in all these environments. The mission plan is made of seven wide-field spectro-imaging legacy programs, from the cosmic web to galactic young star clusters, within a nominal two years mission. The payload has been designed to re-use the Planck platform and passive cooling design.

KW - Astronomical instrumentation

KW - Disks

KW - Galaxies

KW - ISM

KW - Star formation

UR - http://www.scopus.com/inward/record.url?scp=67650983096&partnerID=8YFLogxK

U2 - 10.1007/s10686-008-9108-7

DO - 10.1007/s10686-008-9108-7

M3 - Journal article

AN - SCOPUS:67650983096

VL - 23

SP - 277

EP - 302

JO - Space Science Instrumentation

JF - Space Science Instrumentation

SN - 0004-640X

IS - 1

ER -

ID: 229738464