Analytic Preview of Spectral Contribution of the Neutrinos Emission from Deep Space during Specified Period
Analytic Preview of Spectral Contribution of the Neutrinos Emission
DOI:
https://doi.org/10.53560/PPASA(58-3)602Keywords:
Neutrino Flux, Deep Space, SNO, Periodogram Manifestation of Spectral ContributionAbstract
The earlier period investigations of Neutrinos emission from deep space indicate the existence of this particle which has been detected in various laboratories of the world. These laboratories are responsible for recording neutrinos emission originated from deep space. One laboratory situated near Sudbury, Ontario, Canada known as Sudbury Neutrino Observatory (SNO). Another laboratory is in Japan known as Kamikanado. We obtained a set of observations from both labs. It is obvious that the observations recorded at SNO have been utilized in this manuscript. From the same communication, the neutrino behaviour could be better understood by analyzing the SNO observed data set-I from November 1999 to May 2001 of D2O, while dataset-II is from July 2001 to August 2003 of salt water with particulars recorded, Run start Time since midnight. The samples used in this paper are 250 entries from both the observations sets. In this presentation, the most spectacular exhibition of the neutrino flux in its frequency components of the particles have been depicted in the form of a Periodogram that identifies covariance structure in the neutrino flux reaching this biosphere and parametric values obtained in this paper have been tabulated in various table frame of work. This communication does claim the neutrino emission characteristics in the real world. It has also been known from the literature survey that the same kind of work has not been framed in the third world countries where no neutrino detection laboratories exist. This piece of information will be beneficial for the private and public organizations where the experts are trying to explore deep space emissions detection and their characterization like the present study.
References
Winter, K. Neutrino Physics. Cambridge University Press (1991).
Pauli, W. letter of the 4th of December 1930, Pauli Archive at CERN.
Zralek, M. 50 years of Neutrino Physics, arXiv:1012.2390v1 (2010).
Fritsch, U.: Cluster search for neutrinos from Active Galactic Nuclei (Doctoral dissertation, Friedrich- Alexander-Universität Erlangen-Nürnberg, (2014).
Bahcall, J. An introduction to solar neutrino research. arXiv preprint hep-ph/9711358(1997).
Takita, M.: Frontiers of Neutrino Astrophysics, p. 147(1993).
Davis, R.: A review of the Homestake solar neutrino experiment. Progress in Particle and Nuclear Physics, 32, 13-32(1994).
Bahcall, J. N., Basu, S., &Pinsonneault, M. H.: How uncertain are solar neutrino predictions? Physics Letters B,433(1-2), 1-8(1998).
Suzuki, Y.: Kamiokande solar neutrino results. Nuclear Physics B-Proceedings Supplements, 38(1-3), 54-59(1995).
Fukuda, Y., Hayakawa, T., Inoue, K., Ishihara, K., Ishino, H., Joukou, S., ...& Matsumoto, K.: Solar neutrino data covering solar cycle 22. Physical Review Letters, 77(9), 1683(1996).
Anselmann, P., Fockenbrock, R., Hampel, W., Heusser, G., Kiko, J., Kirsten, T., ...&Sann, M.: First results from the 51Cr neutrino source experiment with the GALLEX detector. Physics Letters B, 342(1-4), 440-450 (1995).
Abdurashitov, J. N., Faizov, E. L., Gavrin, V. N., Gusev, A. O., Kalikhov, A. V., Knodel, T. V., &Shalagin, A. M.: Results from SAGE; The Russian-American gallium solar neutrino experiment. Physics Letters B, 328(1-2), 234-248 (1994).
LoSecco, J. M.: The History of “Anomalous” Atmospheric Neutrino Events: A First Person Account. Physics in Perspective, 18(2), 209- 241(2016).
Davis Jr, R., Harmer, D. S., & Hoffman, K. C.:Search for neutrinos from the Sun. Physical Review Letters, 20(21), 1205 (1968).
Sheldon, W. R.: Possible relation of a null solar neutrino flux to the II year solar cycle. Nature, 221(5181), 650 (1969).
D’Alessi, L., Vecchio, A., Carbone, V., Laurenza, M., &Storini, M.: Quasi-biennial modulation of the solar neutrino flux: a “Telescope” for the solar interior. Journal of Modern Physics, 4(04), 49(2013).
Pontieri, A., Lepreti, F., Sorriso-Valvo, L., Vecchio, A., & Carbone, V.: A simple model for the solar cycle. Solar Physics, 213(1), 195-201(2003).
Sakurai, K.: Quasi-biennial variation of the solar neutrino flux and solar activity. Nature, 278(5700), 146 (1979).
Chen, M. C.: Solar neutrino experiments: Status and prospects. Physics of Particles and Nuclei, 42(4), 558(2011).
May-Britt K. Space Physics – An Introduction to Plasma and Particles in the Heliosphere and Magnetospheres, Springer-Verlag Berlin Heidelberg 3rd Edition (2004).
Bradley W. Carroll, Dale A. Ostlie: An Introduction to Modern Astrophysics 2nd Edition, Pearson International Edition (2007).
Ahmad et al.: Measurement of the charged current interactions produced by B-8 solar neutrinos at the Sudbury Neutrino Observatory. Phys. Rev. Lett, 87, 071301(2001).
Ahmad, Q. R., Allen, R. C., Andersen, T. C., Anglin, J. D., Barton, J. C., Beier, E. W., ...&Blevis, I.: Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory. Physical review letters, 89(1), 011301(2002).
SNO collaboration: Measurement of the total active 8B solar neutrino flux at the Sudbury Neutrino Observatory with enhanced neutral current sensitivity. arXiv preprint nucl-ex/0309004(2003).
Waller, D. Results from the Sudbury Neutrino Observatory, SLAC Summer Institute on Particle Physics (SSI04), 2-13, (2004).
Ahmad, Q. R., Allen, R. C., Andersen, T. C., Anglin, J. D., Barton, J. C., Beier, E. W., ... &Blevis, I.: Measurement of day and night neutrino energy spectra at SNO and constraints on neutrino mixing parameters. Physical Review Letters, 89(1), 011302(2002).
Ahmad, Q. R., Allen, R. C., & Andersen, T. C.: Measurement of the rate of ve + d→ p + p + e− interactions produced by 8B solar neutrinos at the Sudbury Neutrino Observatory. Phys. Rev. Lett, 87(7), 071301(2001).
Ahmed, S. N., Anthony, A. E., Beier, E. W., Bellerive, A., Biller, S. D., Boger, J., ...& Bullard, T. V.: Constraints on nucleon decay via invisible modes from the Sudbury Neutrino Observatory. Physical review letters, 92(10), 102004 (2004).
Ahmed, S., Anthony, A. E., Beier, E. W., Bellerive, A., Biller, S. D., Boger, J., ...& Bullard, T. V.: Measurement of the Total Active B 8 Solar Neutrino Flux at the Sudbury Neutrino Observatory with Enhanced Neutral Current Sensitivity. Physical review letters, 92(18), 181301(2004).
Ewan, G. T., & Davidson, W. F.: Early development of the underground SNO laboratory in Canada. Physics in Canada (2005).
Boger, J., Hahn, R. L., Rowley, J. K., Carter, A. L., Hollebone, B., Kessler, D., ... & Grant, D. R.: The Sudbury neutrino observatory. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 449(1-2), 172-207(2000).
Makridakis S & Steven C. W., Forecasting: methods and applications, John Wiley, New York (1985).
Montgomery D C and Johnson L A., Forecasting and time series analysis, McGrew-Hill, New York (1990).
Millard S. P., Environmental Stats for S-Plus, (Springer-Verlag), New York (1998).
Chatfield C., The analysis of Time Series: an introduction, 4/e, Chapman & Hall, London (1989).
Pandit S M and Wu S-M., Time Series and System Analysis with applications, New York: J Wiley (1985).
Diggle, P. J.: Time series; a bio-statistical introduction (No. 04; QA280, D5.) (1990).
SNO Collaboration: A Search for Periodicities in the 8B Solar Neutrino Flux Measured by the Sudbury Neutrino Observatory (2005).
Bahcall, J. N.: Solar neutrinos. i. theoretical. Physical Review Letters, 12(11), 300(1964).
Collaboration, S. N. O.: HOWTO use the SNO Salt flux results (2003).
Tong, H.: Non-linear time series: a dynamical system approach. Oxford University Press(1990).
Mc Taggart, R. (2017). Simulation of Neutrino Detection and Background Rejection for a Heavy Liquid Scintillator in a Space Environment. Marshall Space Flight Center Faculty Fellowship Program, 102.
Davis Jr, R.: Solar neutrinos. ii. experimental. Physical Review Letters, 12(11), 303(1964).