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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
Pressure waves, Shear waves, Sound speed, South Pole, Acoustics, Neutrino astronomy, NOISE, ATTENUATION, AMANDA, ANTARCTICA, ACOUSTIC DETECTION


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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.
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.
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.
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.
  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          = {},
  volume       = {33},
  year         = {2010},

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