Ulysses radio and plasma wave observations at high southern heliographic latitudes

R. G. Stone; R. J. MacDowall; J. Fainberg; S. Hoang; M. L. Kaiser; P. J. Kellogg; N. Lin; V. A. Osherovich; J. L. Bougeret; P. Canu; N. Cornilleau-Wehrlin; M. D. Desch; K. Goetz; M. L. Goldstein; C. C. Harvey; D. Lengyel-Frey; R. Manning; M. J. Reiner; J. L. Steinberg; G. Thejappa

doi:10.1126/science.268.5213.1026

Ulysses radio and plasma wave observations at high southern heliographic latitudes

R. G. Stone, R. J. MacDowall, J. Fainberg, S. Hoang, M. L. Kaiser, P. J. Kellogg, N. Lin, V. A. Osherovich, J. L. Bougeret, P. Canu, N. Cornilleau-Wehrlin, M. D. Desch, K. Goetz, M. L. Goldstein, C. C. Harvey, D. Lengyel-Frey, R. Manning, M. J. Reiner, J. L. Steinberg, G. Thejappa

Physics and Astronomy (Twin Cities)

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Abstract

Ulysses spacecraft radio and plasma wave observations indicate that some variations in the intensity and occurrence rate of electric and magnetic wave events are functions of heliographic latitude, distance from the sun, and phase of the solar cycle. At high heliographic latitudes, solar type III radio emissions did not descend to the local plasma frequency, in contrast to the emission frequencies of some bursts observed in the ecliptic. Short-duration bursts of electrostatic and electromagnetic waves were often found in association with depressions in magnetic field amplitude, known as magnetic holes. Extensive wave activity observed in magnetic clouds may exist because of unusually large electron-ion temperature ratios. The lower number of intense in situ wave events at high latitudes was likely due to the decreased variability of the highlatitude solar wind.

Original language	English (US)
Pages (from-to)	1026-1029
Number of pages	4
Journal	Science
Volume	268
Issue number	5213
DOIs	https://doi.org/10.1126/science.268.5213.1026
State	Published - Jan 1 1995

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Stone, R. G., MacDowall, R. J., Fainberg, J., Hoang, S., Kaiser, M. L., Kellogg, P. J., Lin, N., Osherovich, V. A., Bougeret, J. L., Canu, P., Cornilleau-Wehrlin, N., Desch, M. D., Goetz, K., Goldstein, M. L., Harvey, C. C., Lengyel-Frey, D., Manning, R., Reiner, M. J., Steinberg, J. L., & Thejappa, G. (1995). Ulysses radio and plasma wave observations at high southern heliographic latitudes. Science, 268(5213), 1026-1029. https://doi.org/10.1126/science.268.5213.1026

Stone, RG, MacDowall, RJ, Fainberg, J, Hoang, S, Kaiser, ML, Kellogg, PJ, Lin, N, Osherovich, VA, Bougeret, JL, Canu, P, Cornilleau-Wehrlin, N, Desch, MD, Goetz, K, Goldstein, ML, Harvey, CC, Lengyel-Frey, D, Manning, R, Reiner, MJ, Steinberg, JL & Thejappa, G 1995, 'Ulysses radio and plasma wave observations at high southern heliographic latitudes', Science, vol. 268, no. 5213, pp. 1026-1029. https://doi.org/10.1126/science.268.5213.1026

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abstract = "Ulysses spacecraft radio and plasma wave observations indicate that some variations in the intensity and occurrence rate of electric and magnetic wave events are functions of heliographic latitude, distance from the sun, and phase of the solar cycle. At high heliographic latitudes, solar type III radio emissions did not descend to the local plasma frequency, in contrast to the emission frequencies of some bursts observed in the ecliptic. Short-duration bursts of electrostatic and electromagnetic waves were often found in association with depressions in magnetic field amplitude, known as magnetic holes. Extensive wave activity observed in magnetic clouds may exist because of unusually large electron-ion temperature ratios. The lower number of intense in situ wave events at high latitudes was likely due to the decreased variability of the highlatitude solar wind.",

author = "Stone, {R. G.} and MacDowall, {R. J.} and J. Fainberg and S. Hoang and Kaiser, {M. L.} and Kellogg, {P. J.} and N. Lin and Osherovich, {V. A.} and Bougeret, {J. L.} and P. Canu and N. Cornilleau-Wehrlin and Desch, {M. D.} and K. Goetz and Goldstein, {M. L.} and Harvey, {C. C.} and D. Lengyel-Frey and R. Manning and Reiner, {M. J.} and Steinberg, {J. L.} and G. Thejappa",

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T1 - Ulysses radio and plasma wave observations at high southern heliographic latitudes

AU - Stone, R. G.

AU - MacDowall, R. J.

AU - Fainberg, J.

AU - Hoang, S.

AU - Kaiser, M. L.

AU - Kellogg, P. J.

AU - Lin, N.

AU - Osherovich, V. A.

AU - Bougeret, J. L.

AU - Canu, P.

AU - Cornilleau-Wehrlin, N.

AU - Desch, M. D.

AU - Goetz, K.

AU - Goldstein, M. L.

AU - Harvey, C. C.

AU - Lengyel-Frey, D.

AU - Manning, R.

AU - Reiner, M. J.

AU - Steinberg, J. L.

AU - Thejappa, G.

PY - 1995/1/1

Y1 - 1995/1/1

N2 - Ulysses spacecraft radio and plasma wave observations indicate that some variations in the intensity and occurrence rate of electric and magnetic wave events are functions of heliographic latitude, distance from the sun, and phase of the solar cycle. At high heliographic latitudes, solar type III radio emissions did not descend to the local plasma frequency, in contrast to the emission frequencies of some bursts observed in the ecliptic. Short-duration bursts of electrostatic and electromagnetic waves were often found in association with depressions in magnetic field amplitude, known as magnetic holes. Extensive wave activity observed in magnetic clouds may exist because of unusually large electron-ion temperature ratios. The lower number of intense in situ wave events at high latitudes was likely due to the decreased variability of the highlatitude solar wind.

AB - Ulysses spacecraft radio and plasma wave observations indicate that some variations in the intensity and occurrence rate of electric and magnetic wave events are functions of heliographic latitude, distance from the sun, and phase of the solar cycle. At high heliographic latitudes, solar type III radio emissions did not descend to the local plasma frequency, in contrast to the emission frequencies of some bursts observed in the ecliptic. Short-duration bursts of electrostatic and electromagnetic waves were often found in association with depressions in magnetic field amplitude, known as magnetic holes. Extensive wave activity observed in magnetic clouds may exist because of unusually large electron-ion temperature ratios. The lower number of intense in situ wave events at high latitudes was likely due to the decreased variability of the highlatitude solar wind.

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JO - Science

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ER -

Ulysses radio and plasma wave observations at high southern heliographic latitudes

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