H. Heukenkamp
University of Wisconsin-Madison
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Astroparticle Physics | 1997
I. A. Belolaptikov; L. Bezrukov; B. A. Borisovets; N. M. Budnev; E. V. Bugaev; A. G. Chensky; I.A. Danilchenko; J.-A.M Djilkibaev; V. I. Dobrynin; G. V. Domogatsky; L.A. Donskych; A. A. Doroshenko; G. N. Dudkin; V.Yu. Egorov; S. V. Fialkovsky; A. A. Garus; A Gaponenko; A.V. Golikov; O. Gress; T.A Gress; M.N. Gushtan; R. Heller; V.B. Kabikov; H. Heukenkamp; A Karle; A. M. Klabukov; A.I Klimov; S.I. Klimushin; A. P. Koshechkin; J. Krabi
Abstract A first deep underwater detector for muons and neutrinos, NT-200 , is currently under construction in Lake Baikal. Part of the detector, NT-36 , with 36 photomultiplier tubes at three strings, has been installed in 1993. This array allowed for the first time a three-dimensional mapping of Cherenkov light deep underwater. Since then, various arrays have been almost continuously taking data. Presently a 96-PMT array is operating. We describe the NT-200 detector design and present results obtained with NT-36 .
Astroparticle Physics | 2000
E. Andres; P. Askebjer; S. W. Barwick; R. Bay; Lars Bergström; A. Biron; J. Booth; A. Bouchta; Staffan Carius; M. Carlson; D. F. Cowen; E. Dalberg; T. DeYoung; P. Ekström; B. Erlandson; Ariel Goobar; L. Gray; A. Hallgren; F. Halzen; R. Hardtke; S. Hart; Y. He; H. Heukenkamp; G. C. Hill; P. O. Hulth; S. Hundertmark; J. Jacobsen; Andrew Jones; V. Kandhadai; A. Karle
AMANDA is a high-energy neutrino telescope presently under construction at the geographical South Pole. In the Antarctic summer 1995/96, an array of 80 optical modules (OMs) arranged on 4 strings (AMANDA-B4) was deployed at depths between 1.5 and 2 km. In this paper we describe the design and performance of the AMANDA-B4 prototype, based on data collected between February and November 1996. Monte Carlo simulations of the detector response to down-going atmospheric muon tracks show that the global behavior of the detector is understood. We describe the data analysis method and present first results on atmospheric muon reconstruction and separation of neutrino candidates. The AMANDA array was upgraded with 216 OMs on 6 new strings in 1996/97 (AMANDA-B10), and 122 additional OMs on 3 strings in 1997/98.
Geophysical Research Letters | 1997
P. Askebjer; S. W. Barwick; Lars Bergström; A. Bouchta; Staffan Carius; E. Dalberg; B. Erlandsson; Ariel Goobar; L. Gray; A. Hallgren; F. Halzen; H. Heukenkamp; Per Olof Hulth; S. Hundertmark; J. Jacobsen; V. Kandhadai; A. Karle; I. Liubarsky; D. Lowder; T. Miller; P. Mock; Robert P. Morse; R. Porrata; P. B. Price; A. Richards; H. Rubinstein; E. Schneider; Ch. Spiering; O. Streicher; Q. Sun
Both absorption and scattering of light at wavelengths 410 to 610 nanometers were measured in the South Pole ice at depths 0.8 to 1 kilometer with the laser calibration system of the Antarctic Muon And Neutrino Detector Array (AMANDA). At the shortest wavelengths the absorption lengths exceeded 200 meters - an order of magnitude longer than has been reported for laboratory ice. The absorption shows a strong wavelength dependence while the scattering length is found to be independent of the wavelength, consistent with the hypothesis of a residual density of air bubbles in the ice. The observed linear decrease of the inverse scattering length with depth is compatible with an earlier measurement by the AMANDA collaboration (at ∼515 nanometers).
Nuclear Physics B - Proceedings Supplements | 1994
I. A. Belolaptikov; L. Bezrukov; B. A. Borisovets; N. M. Budnev; A. G. Chensky; Zh.-A. M. Djilkibaev; V. I. Dobrynin; G. V. Domogatsky; L.A. Donskych; A. A. Doroshenko; S. V. Fialkovsky; A.V. Golikov; O. Gress; R. Heller; H. Heukenkamp; V.B. Kabikov; A. M. Klabukov; A. Klimov; S.I. Klimushin; T.A. Konopleva; A. P. Koshechkin; J. Krabi; V. F. Kulepov; L. A. Kuzmichov; O.J. Lanin; B. K. Lubsandorzhiev; M. B. Milenin; T. Mikolajski; R. R. Mirgazov; S.A. Nikiforov
Abstract Since April 13th 1993, an underwater Cherenkov telescope consisting of 36 photomultipliers arranged along 3 strings is in operation at lake Baikal. We describe the array and present preliminary results of the first five months of operation.
Nuclear Physics B - Proceedings Supplements | 1995
I. A. Belolaptikov; L. Bezrukov; B. A. Borisovets; N. M. Budnev; A. G. Chensky; I.A. Danilshenko; Zh.-A. M. Djilkibaev; V. I. Dobrynin; G. V. Domogatsky; L.A. Donskych; A. A. Doroshenko; S. V. Fialkovsky; O.N. Gaponenko; A. A. Garus; O. Gress; T. Gress; H. Heukenkamp; A. M. Klabukov; A. Klimov; S.I. Klimushin; A. P. Koshechkin; J. Krabi; V. F. Kulepov; L. A. Kuzmichov; B. Lubsandorzhiev; N.I. Maseiko; M. B. Milenin; T. Mikolajski; R. R. Mirgazov; S. A. Nikiforov
Since one and a half year, the underwater Cherenkov telescope NT-36 consisting of 36 photomultipliers attached to 3 strings is operated in lake Baikal. The large statistics of collected data allows for comparison with Monte Carlo predictions starting from the level of detector response up to more sophisticated dependences like the angular distribution of muon intensity.
arXiv: Astrophysics | 1996
P. O. Hulth; C. Spiering; C. H. Wiebusch; T. Mikolajski; E. Dahlberg; Ariel Goobar; R. Wischnewski; R. Porrata; A. Karle; Staffan Carius; Lars Bergström; Q. Sun; L. Gray; B. Erlandsson; A. Bouchta; K. Engel; V. Kandhadai; A. Hallgren; P. Ekström; Timothy Miller; E. Andres; S. Tilav; H. Rubinstein; P. Askebjer; S. W. Barwick; J. Jacobsen; S. Hundertmark; F. Halzen; I. Liubarsky; G. Yodh
Archive | 1995
I. A. Belolaptikov; Leonid B. Bezrukov; B. A. Borisovets; N. M. Budnev; A. G. Chensky; I. Danilchenko; Zh.-A. M. Djilkibaev; V. I. Dobrynin; G. V. Domogatsky; L. A. Donoskykh; A. A. Doroshenko; S. V. Fialkovsky; A. A. Garus; O. Gress; T. A. Gress; H. Heukenkamp; A. Karle; A. M. Klabukov; Alexander I. Klimov; S. I. Klimushin; A. P. Koshechkin; J. Krabi; V. F. Kulepov; L. A. Kuzmichov; B. K. Lubsandorzhiev; M. B. Milenin; T. Mikolajski; R. R. Mirgazov; N. I. Moseiko; S. A. Nikiforov
Nuclear Physics B - Proceedings Supplements | 1992
S.D. Alatin; I. A. Belolaptikov; L. Bezrukov; B. A. Borisovets; N. M. Budnev; E. V. Bugaev; A. G. Chensky; Zh.-A. M. Djilkibaev; V. I. Dobrynin; G. V. Domogatsky; L.A. Donskich; A. A. Doroshenko; G. N. Dudkin; V.Yu. Egorov; S. V. Fialkovsky; M.D. Galperin; A.V. Golikov; O. Gress; M.N. Gushtan; H. Heukenkamp; L. Jenck; V.B. Kabikov; D. Kiss; A. M. Klabukov; S.I. Klimushin; A.P. Koschechkin; J. Krabi; V. F. Kulepov; Yu.S. Kusner; L. A. Kuzmichov
Archive | 1992
I. A. Belolaptikov; L. Bezrukov; B. A. Borisovets; N. M. Budnev; E. V. Bugaev; A. G. Chensky; Zh.-A. M. Djilkibaev; V. I. Dobrynin; G. V. Domogatsky; L.A. Donskych; A. A. Doroshenko; G. N. Dudkin; V.Yu. Egorov; S. V. Fialkovsky; Alexey V. Golikov; O. Gress; M.N. Gushtan; Rachelle S. Heller; H. Heukenkamp; V.B. Kabikov; A. M. Klabukov; Alexander I. Klimov; S.I. Klimushin; T.A. Konopleva; A. P. Kosheckin; J. Krabi; V. F. Kulepov; L. A. Kuzmichov; O. Ju. Lanin; A.L. Lopin
Nuclear Physics B - Proceedings Supplements | 1997
P. Askebjer; S. W. Barwick; R. Bay; Lars Bergström; A. Bouchta; Staffan Carius; E. Dahlberg; K. Engel; B. Erlandsson; Ariel Goobar; L. Gray; A. Hallgren; F. Halzen; H. Heukenkamp; P. O. Hulth; S. Hundertmark; J. Jacobsen; Sverker Johansson; V. Kandhadai; A. Karle; I. Liubarsky; D. M. Lowder; T. Mikolajski; T. Miller; P. Mock; R. Morse; D. R. Nygren; R. Porrata; P. B. Price; A. Richards
