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| TMC-1 CP , the SIMBAD biblio (51 results) | C.D.S. - SIMBAD4 rel 1.8 - 2023.05.29CEST13:33:00 |
| Bibcode/DOI | Score |
in Title|Abstract| Keywords |
in a table | in teXt, Caption, ... | Nb occurence | Nb objects in ref |
Citations (from ADS) |
Title | First 3 Authors |
|---|---|---|---|---|---|---|---|---|---|
| 1982ApJ...254..111J | 69 | T | 1 | 4 | 13 |
Rotational temperatures of cyanodiacetylene in Sagttarius B2, TMC-1, and IRC +10216. |
JENNINGS D.E. and FOX K. | ||
| 2004A&A...420..533T | 22 | A | O | 64 | 12 | Very cold cores in the Taurus Molecular Ring as seen by ISO. | TOTH L.V., HAAS M., LEMKE D., et al. | ||
| 2006ApJ...642..954M | 11 | 7 | Correlation between nuclear spin ratio of cyclic C3H2and chemical evolution in TMC-1 cores. | MORISAWA Y., FUSHITANI M., KATO Y., et al. | |||||
| 2006ApJS..162..388T | 12 | 6 | The C4H Zeeman effect in TMC-1: understanding low-mass star formation. | TURNER B.E. and HEILES C. | |||||
| 2007A&A...467.1103G | 19 | 4 | 159 | Non-thermal desorption from interstellar dust grains via exothermic surface reactions. | GARROD R.T., WAKELAM V. and HERBST E. | ||||
| 2007MNRAS.382..733R | 3 | 11 | 66 | Desorption from interstellar ices. | ROBERTS J.F., RAWLINGS J.M.C., VITI S., et al. | ||||
| 2008MNRAS.384..755N | 190 | X F | 4 | 16 | 33 | SCUBA and Spitzer observations of the Taurus molecular cloud - pulling the bull's tail. | NUTTER D., KIRK J.M., STAMATELLOS D., et al. | ||
| 2008ApJ...685.1033P | 18 | 22 | Detection of C3 O in the low-mass protostar Elias 18. | PALUMBO M.E., LETO P., SIRINGO C., et al. | |||||
| 2009ApJ...699..585H | 15 | D | 1 | 147 | 28 | A search for carbon-chain-rich cores in dark clouds. | HIROTA T., OHISHI M. and YAMAMOTO S. | ||
| 2009ApJ...700..752W | 596 | A | X C | 15 | 8 | 30 | The effects of molecular anions on the chemistry of dark clouds. | WALSH C., HARADA N., HERBST E., et al. | |
| 2012A&A...543A.155S | 79 | X | 2 | 10 | 21 | Nitrogen oxides and carbon chain oxides formed after ion irradiation of CO:N2 ice mixtures. | SICILIA D., IOPPOLO S., VINDIGNI T., et al. | ||
| 2013ApJ...770...48C | 94 | D | C | 8 | 25 | 20 | On the ubiquity of molecular anions in the dense interstellar medium. | CORDINER M.A., BUCKLE J.V., WIRSTROM E.S., et al. | |
| 2014ApJ...788..108S | 40 | X | 1 | 12 | 1 | Distribution of CCS and HC3 N in L1147, an early phase dark cloud. | SUZUKI T., OHISHI M. and HIROTA T. | ||
| 2015ApJ...802...74S | 1028 | A | S X C | 24 | 8 | 7 | Methanol in the starless core, Taurus Molecular Cloud-1. | SOMA T., SAKAI N., WATANABE Y., et al. | |
| 2015ApJ...807...66Y | 202 | X | 5 | 6 | 8 | Abundance anomaly of the 13C isotopic species of c-C3H2 in the low-mass star formation region L1527. | YOSHIDA K., SAKAI N., TOKUDOME T., et al. | ||
| 2016ApJ...817..147T | 718 | A | X C | 17 | 4 | 14 | Implication of formation mechanisms of HC5 N in TMC-1 as studied by 13C isotopic fractionation. | TANIGUCHI K., OZEKI H., SAITO M., et al. | |
| 2016MNRAS.459.3756R | 656 | A | S X C F | 13 | 2 | 45 | Gas and grain chemical composition in cold cores as predicted by the Nautilus three-phase model. | RUAUD M., WAKELAM V. and HERSANT F. | |
| 2016ApJ...830....2G | 81 | X | 2 | 5 | 2 | Exploring a chemical route for the formation of stable anions of polyynes [CnH- (n=2,4)] in molecular clouds. | GIANTURCO F.A., SATTA M., MENDOLICCHIO M., et al. | ||
| 2016ApJ...830..106T | 180 | D | X | 5 | 8 | 12 | 13C isotopic fractionation of HC3N in star-forming regions: low-mass star-forming region L1527 and high-mass star-forming region G28.28-0.36. | TANIGUCHI K., SAITO M. and OZEKI H. | |
| 2016ApJ...833..291A | 976 | A | D | X C | 24 | 8 | 8 | Precise observations of the 12C/13C ratios of HC3N in the low-mass star-forming region L1527. | ARAKI M., TAKANO S., SAKAI N., et al. |
| 2017MNRAS.466.4470M | 100 | D | C | 11 | 6 | 8 | Chemistry of TMC-1 with multiply deuterated species and spin chemistry of H2, H2+, H3+ and their isotopologues. | MAJUMDAR L., GRATIER P., RUAUD M., et al. | |
| 2017ApJ...844...68T | 165 | X | 4 | 11 | 5 | Observations of cyanopolyynes toward four high-mass star-forming regions containing hot cores. | TANIGUCHI K., SAITO M., HIROTA T., et al. | ||
| 2017ApJ...844..154S | 41 | X | 1 | 2 | ~ | On the energetics of the HCO+ + C -> CH+ + CO reaction and some astrochemical implications. | SAVIN D.W., BHASKAR R.G., VISSAPRAGADA S., et al. | ||
| 2017ApJ...846...46T | 1235 | X | 30 | 9 | 7 | 13C isotopic fractionation of HC3N in two starless cores: L1521B and L134N (l183). | TANIGUCHI K., OZEKI H. and SAITO M. | ||
| 2017ApJ...847...51A | 576 | A | D | X | 15 | 11 | ~ | Long carbon chains in the warm carbon-chain-chemistry source L1527: first detection of C7H in molecular clouds. | ARAKI M., TAKANO S., SAKAI N., et al. |
| 2017ApJ...850...42G | 4 | ~ | Formation of anionic C, N-bearing chains in the interstellar medium via reactions of H– with HCxN for odd-valued x from 1 to 7. | GIANTURCO F.A., SATTA M., YURTSEVER E., et al. | |||||
| 2017ApJ...850..187C | 126 | X C | 2 | 2 | 6 | Deep K-band observations of TMC-1 with the Green Bank Telescope: detection of HC7O, nondetection of HC11N, and a search for new organic molecules. | CORDINER M.A., CHARNLEY S.B., KISIEL Z., et al. | ||
| 2018MNRAS.473L..59M | 209 | X | 5 | 6 | 4 | Methyl isocyanate (CH3NCO): an important missing organic in current astrochemical networks. | MAJUMDAR L., LOISON J.-C., RUAUD M., et al. | ||
| 2018ApJ...854..116S | 1864 | A | S X C | 43 | 13 | 1 | Complex organic molecules in Taurus Molecular Cloud-1. | SOMA T., SAKAI N., WATANABE Y., et al. | |
| 2018ApJ...868...41M | 903 | A | X C | 21 | 2 | ~ | Astrochemical kinetic grid models of groups of observed molecular abundances: Taurus Molecular Cloud 1 (TMC-1). | MAFFUCCI D.M., WENGER T.V., LE GAL R., et al. | |
| 2017PASJ...69L...7T | 1317 | X C | 31 | 4 | ~ | First detection of HC515N in the interstellar medium. | TANIGUCHI K. and SAITO M. | ||
| 2019ApJ...871...89E | 8 | ~ | The effect of far-infrared radiation on the hyperfine anomaly of the OH 18 cm transition. | EBISAWA Y., SAKAI N., MENTEN K.M., et al. | |||||
| 2019ApJ...874...35S | 85 | X | 2 | 3 | ~ | On the photodesorption of CO2 ice analogs: the formation of atomic C in the ice and the effect of the VUV emission spectrum. | SIE N.-E., MUNOZ CARO G.M., HUANG Z.-H., et al. | ||
| 2019A&A...624A.105F | 8 | ~ | Gas phase Elemental abundances in Molecular cloudS (GEMS). I. The prototypical dark cloud TMC 1. | FUENTE A., NAVARRO D.G., CASELLI P., et al. | |||||
| 2019ApJ...887..243T | 43 | X | 1 | 9 | ~ | Chemical properties of two dense cores in a Planck Galactic Cold Clump G168.72-15.48. | TANG M., GE J.X., QIN S.-L., et al. | ||
| 2020ApJ...890...39O | 670 | D | X C | 15 | 10 | ~ | Reevaluation of C4H abundance based on the revised dipole moment. | OYAMA T., OZAKI H., SUMIYOSHI Y., et al. | |
| 2020A&A...637A..39N | 1132 | A | D | S X C | 25 | 15 | ~ | Gas phase Elemental abundances in Molecular cloudS (GEMS). II. On the quest for the sulphur reservoir in molecular clouds: the H2S case. | NAVARRO-ALMAIDA D., LE GAL R., FUENTE A., et al. |
| 2021MNRAS.501.1228V | 699 | A | X C F | 14 | 5 | ~ | Species cycling and the enhancement of ammonia in pre-stellar cores. | VON PROCHAZKA A.A. and MILLAR T.J. | |
| 2021A&A...646A...5B | 90 | X | 2 | 10 | ~ | Gas phase Elemental abundances in Molecular cloudS (GEMS). III. Unlocking the CS chemistry: the CS+O reaction. | BULUT N., RONCERO O., AGUADO A., et al. | ||
| 2021ApJ...910...20Y | 90 | X | 2 | 84 | ~ | The Perseus ALMA Chemistry Survey (PEACHES). I. The complex organic molecules in Perseus embedded protostars. | YANG Y.-L., SAKAI N., ZHANG Y., et al. | ||
| 2021A&A...648A.120R | 108 | D | X | 3 | 61 | ~ | Gas phase Elemental abundances in Molecular cloudS (GEMS). IV. Observational results and statistical trends. | RODRIGUEZ-BARAS M., FUENTE A., RIVIERE-MARICHALAR P., et al. | |
| 2021ApJ...913L..18B | 90 | X | 2 | 7 | ~ | Discovery of the pure polycyclic aromatic hydrocarbon indene (c-C9H8) with GOTHAM Observations of TMC-1. | BURKHARDT A.M., LEE K.L.K., CHANGALA P.B., et al. | ||
| 2021A&A...652A..63W | 242 | D | S X C | 4 | 3 | ~ | Efficiency of non-thermal desorptions in cold-core conditions. Testing the sputtering of grain mantles induced by cosmic rays. | WAKELAM V., DARTOIS E., CHABOT M., et al. | |
| 2021A&A...653A..15N | 3360 | T A | D | X C | 74 | 5 | ~ |
Evolutionary view through the starless cores in Taurus. Deuteration in TMC 1-C and TMC 1-CP. |
NAVARRO-ALMAIDA D., FUENTE A., MAJUMDAR L., et al. |
| 2022A&A...657A..10S | 812 | D | S X C | 16 | 19 | ~ | Gas phase Elemental abundances in Molecular cloudS (GEMS) V. Methanol in Taurus. | SPEZZANO S., FUENTE A., CASELLI P., et al. | |
| 2022ApJ...926..171F | 93 | X | 2 | 2 | ~ | Quantifying the Chemical Desorption of H2S and PH3 from Amorphous Water-ice Surfaces. | FURUYA K., OBA Y. and SHIMONISHI T. | ||
| 2022ApJ...928..175C | 1213 | A | D | S X C | 25 | 9 | ~ | Chemical Variations Across the TMC-1 Boundary: Molecular Tracers from the Translucent Phase to the Dense Phase. | CHEN L.-F., LI D., QUAN D., et al. |
| 2022MNRAS.516.4627C | 439 | D | X C | 9 | 6 | ~ | Complex organic molecules formation in cold cores on stochastically heated grains. | CHEN L.-F., CHANG Q., WANG Y., et al. | |
| 2022A&A...665A.131L | 187 | X | 4 | 2 | ~ | Multiline observations of CH3OH, c-C3H2, and HNCO toward L1544. Dissecting the core structure with chemical differentiation. | LIN Y., SPEZZANO S., SIPILA O., et al. | ||
| 2023A&A...670A.110N | 50 | X | 1 | 17 | ~ | Linking the dust and chemical evolution: Taurus and Perseus New collisional rates for HCN, HNC, and their C, N, and H isotopologues. | NAVARRO-ALMAIDA D., BOP C.T., LIQUE F., et al. | ||
| 2023A&A...670A.114F | 420 | D | X | 9 | 57 | ~ | Gas phase Elemental abundances in Molecular cloudS (GEMS) VII. Sulfur elemental abundance. | FUENTE A., RIVIERE-MARICHALAR P., BEITIA-ANTERO L., et al. |
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