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Measurement of sound speed vs. depth in South Pole ice for neutrino astronomy

(2010) ASTROPARTICLE PHYSICS. 33(5-6). p.277-286
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Keywords
Pressure waves, Shear waves, Sound speed, South Pole, Acoustics, Neutrino astronomy, NOISE, ATTENUATION, AMANDA, ANTARCTICA, ACOUSTIC DETECTION

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Citation

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Chicago
Abbasi, R, Yasser Abdou, M Ackermann, J Adams, JA Aguilar, M Ahlers, K Andeen, et al. 2010. “Measurement of Sound Speed Vs. Depth in South Pole Ice for Neutrino Astronomy.” Astroparticle Physics 33 (5-6): 277–286.
APA
Abbasi, R., Abdou, Y., Ackermann, M., Adams, J., Aguilar, J., Ahlers, M., Andeen, K., et al. (2010). Measurement of sound speed vs. depth in South Pole ice for neutrino astronomy. ASTROPARTICLE PHYSICS, 33(5-6), 277–286.
Vancouver
1.
Abbasi R, Abdou Y, Ackermann M, Adams J, Aguilar J, Ahlers M, et al. Measurement of sound speed vs. depth in South Pole ice for neutrino astronomy. ASTROPARTICLE PHYSICS. 2010;33(5-6):277–86.
MLA
Abbasi, R, Yasser Abdou, M Ackermann, et al. “Measurement of Sound Speed Vs. Depth in South Pole Ice for Neutrino Astronomy.” ASTROPARTICLE PHYSICS 33.5-6 (2010): 277–286. Print.
@article{1271612,
  author       = {Abbasi, R and Abdou, Yasser and Ackermann, M and Adams, J and Aguilar, JA and Ahlers, M and Andeen, K and Auffenberg, J and Bai, X and Baker, M and Barwick, SW and Bay, R and Alba, JLB and Beattie, K and Beatty, JJ and Bechet, S and Becker, JK and Becker, KH and Benabderrahmane, ML and Berdermann, J and Berghaus, P and Berley, D and Bernardini, E and Bertrand, D and Besson, DZ and Bissok, M and Blaufuss, E and Boersma, DJ and Bohm, C and Bolmont, J and Boser, S and Botner, O and Bradley, L and Braun, J and Breder, D and Castermans, T and Chirkin, D and Christy, B and Clem, J and Cohen, S and Cowen, DF and D'Agostino, MV and Danninger, M and Day, CT and De Clercq, C and Demirors, L and Depaepe, O and Descamps, Freija and Desiati, P and De Vries-Uiterweerd, Garmt and DeYoung, T and Diaz-Velez, JC and Dreyer, J and Dumm, JP and Duvoort, MR and Edwards, WR and Ehrlich, R and Eisch, J and Ellsworth, RW and Engdegard, O and Euler, S and Evenson, PA and Fadiran, O and Fazely, AR and Feusels, Tom and Filimonov, K and Finley, C and Foerster, MM and Fox, BD and Franckowiak, A and Franke, R and Gaisser, TK and Gallagher, J and Ganugapati, R and Gerhardt, L and Gladstone, L and Goldschmidt, A and Goodman, JA and Gozzini, R and Grant, D and Griesel, T and Gross, A and Grullon, S and Gunasingha, RM and Gurtner, M and Ha, C and Hallgren, A and Halzen, F and Han, K and Hanson, K and Hasegawa, Y and Heise, J and Helbing, K and Herquet, P and Hickford, S and Hill, GC and Hoffman, KD and Hoshina, K and Hubert, D and Huelsnitz, W and Hulss, JP and Hulth, PO and Hultqvist, K and Hussain, S and Imlay, RL and Inaba, M and Ishihara, A and Jacobsen, J and Japaridze, GS and Johansson, H and Joseph, JM and Kampert, KH and Kappes, A and Karg, T and Karle, A and Kelley, JL and Kenny, P and Kiryluk, J and Kislat, F and Klein, SR and Klepser, S and Knops, S and Kohnen, G and Kolanoski, H and Kopke, L and Kowalski, M and Kowarik, T and Krasberg, M and Kuehn, K and Kuwabara, T and Labare, M and Lafebre, S and Laihem, K and Landsman, H and Lauer, R and Leich, H and Lennarz, D and Lucke, A and Lundberg, J and Lunemann, J and Madsen, J and Majumdar, P and Maruyama, R and Mase, K and Matis, HS and McParland, CP and Meagher, K and Merck, M and Meszaros, P and Middell, E and Milke, N and Miyamoto, H and Mohr, A and Montaruli, T and Morse, R and Movit, SM and Munich, K and Nahnhauer, R and Nam, JW and Niessen, P and Nygren, DR and Odrowski, S and Olivas, A and Olivo, M and Ono, M and Panknin, S and Patton, S and de los Heros, CP and Petrovic, J and Piegsa, A and Pieloth, D and Pohl, AC and Porrata, R and Potthoff, N and Price, PB and Prikockis, M and Przybylski, GT and Rawlins, K and Redl, P and Resconi, E and Rhode, W and Ribordy, M and Rizzo, A and Rodrigues, JP and Roth, P and Rothmaier, F and Rott, C and Roucelle, C and Rutledge, D and Ryckbosch, Dirk and Sander, HG and Sarkar, S and Satalecka, K and Schlenstedt, S and Schmidt, T and Schneider, D and Schukraft, A and Schulz, O and Schunck, M and Seckel, D and Semburg, B and Seo, SH and Sestayo, Y and Seunarine, S and Silvestri, A and Slipak, A and Spiczak, GM and Spiering, C and Stamatikos, M and Stanev, T and Stephens, G and Stezelberger, T and Stokstad, RG and Stoufer, MC and Stoyanov, S and Strahler, EA and Straszheim, T and Sulanke, KH and Sullivan, GW and Swillens, Q and Taboada, I and Tarasova, O and Tepe, A and Ter-Antonyan, S and Terranova, C and Tilav, S and Tluczykont, M and Toale, PA and Tosi, D and Turcan, D and van Eijndhoven, N and Vandenbroucke, J and Van Overloop, Arne and Vogt, C and Voigt, B and Walck, C and Waldenmaier, T and Walter, M and Wendt, C and Westerhoff, S and Whitehorn, N and Wiebusch, CH and Wiedemann, A and Wikstrom, G and Williams, DR and Wischnewski, R and Wissing, H and Woschnagg, K and Xu, XW and Yodh, G and Yoshida, S},
  issn         = {0927-6505},
  journal      = {ASTROPARTICLE PHYSICS},
  keyword      = {Pressure waves,Shear waves,Sound speed,South Pole,Acoustics,Neutrino astronomy,NOISE,ATTENUATION,AMANDA,ANTARCTICA,ACOUSTIC DETECTION},
  language     = {eng},
  number       = {5-6},
  pages        = {277--286},
  title        = {Measurement of sound speed vs. depth in South Pole ice for neutrino astronomy},
  url          = {http://dx.doi.org/10.1016/j.astropartphys.2010.01.012},
  volume       = {33},
  year         = {2010},
}

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