Short Reviews of the Francisco Bulnes’s Mathematical Research Theory
International Journal of Systems Science and Applied Mathematics
Volume 4, Issue 1, March 2019, Pages: 13-17
Received: Aug. 23, 2019; Accepted: Sep. 5, 2019; Published: Sep. 19, 2019
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Helen Thrift, Department of Physics, Edinburg University, Edinburg, United Kingdom
Michelle Musk, Department on Biographical Research, International Biographical Centre, Cambridge, United Kingdom
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In this short communication, we revised a mathematical theory on scientific research created by doctor Francisco Bulnes, to be applied in the modern research, which proves, and explains the unity that must exist in applied and theoretical research to obtain true results considering the necessary and sufficient contents in a scientific research. Also because of this theory is deduced a mathematical theory of engineering, that is to say, a mathematical theory of the imagery and creativity necessaries in engineering research. Banach spaces are created and used to develop the doctor Bulnes’s theory, which determines a methodology of scientific research based in mathematics, or at least whose rector axis are the mathematics. Here the difference of knowledge levels are showed in evident way, classifying the research in three levels, where the fundamental level is the creation of a good and consistent theory. After in second plane will come the application of this theory in the inductive or applied sciences level creating a sub-theory. Finally, in the level more applicative or technological, we will have the prototypes, which will derive in the technological products giving solution to society necessities. One principal result of this theory is that the engineering does technology on energy.
Bulnes’s Research Theory, Knowledge Space, Optimal Prototype, Prototypes, Technologies, Theories, True Propositions Space, Sub-theories
To cite this article
Helen Thrift, Michelle Musk, Short Reviews of the Francisco Bulnes’s Mathematical Research Theory, International Journal of Systems Science and Applied Mathematics. Vol. 4, No. 1, 2019, pp. 13-17. doi: 10.11648/j.ijssam.20190401.12
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F. Bulnes, “Design of Quantum Gravity Sensor by Curvature Energy and their Encoding”, IEEE Proc., SAI 2014, London, UK, 2014, pp. 855-861.
F. Bulnes, Y. Stropovsvky and V. Yermishkin, "Quasi-Relaxation Transforms, Meromorphic Curves and Hereditary Integrals of the Stress-Deformation Tensor to Metallic Specimens," Modern Mechanical Engineering, Vol. 2 No. 3, 2012, pp. 92-105. doi: 10.4236/mme.2012.23012.
F. Bulnes, F. H. Bulnes-González, “Quantum Developments in Nanomedicine: Nanocurative Actions by Soft Photons Sources and their Path Integrals,” A. Seifalian, A. de Mel, D. M. Kalaskar (Eds.), Open Central Press, United Kingdom.
Dr. Francisco Bulnes, Editor-in-Chief, Journal on Photonics and Spintronics, Years, 2012-actually
Bulnes, F. Martínez, I, Mendoza, A. Landa, M., “Design and Development of an Electronic Sensor to Detect and Measure Curvature of Spaces Using Curvature Energy,” Journal of Sensor Technology, 2012, 2, pp116-126.
F. Bulnes, I. Martínez, O. Zamudio, Fine Curvature Measurements through Curvature Energy and their Gauging and Sensoring in the Space, Advances in Sensors Reviews 4, (Ed.) Sergey Y. Yurish, IFSA, 2016.
Francisco Bulnes (June 14th 2017). Detection and Measurement of Quantum Gravity by a Curvature Energy Sensor: H-States of Curvature Energy, Perturbation Theory Dimo I. Uzunov, IntechOpen, DOI: 10.5772/68026. Available from:
F. Bulnes, S. Humeini, Topological Superconductors Characterizing II: Curvature Energy in Hall-Spintronics Developments, SciFed Journal of Spintronics and Quantum Electronics, 1:1, 2018.
Francisco Bulnes (2015). A Lie-QED-Algebra and their Fermionic Fock Space in the Superconducting Phenomena, Selected Topics in Applications of Quantum Mechanics, Prof. Mohammad Reza Pahlavani (Ed.), InTech, DOI: 10.5772/59078. Available from:
F. Bulnes, Teoría de Algoritmos para la Maestría de Informática Aplicada, Universidad de las Ciencias Informáticas (UCI), Habana, Cuba, Postdoctoral Project (Aplicaciones de la Teoría Infinita de Lie y sus Aplicaciones a Informática) 2006-2007.
Law, S. N. Musk, M. (2018) Great Men and Women in Science, International Biographical Centre, Cambridge, Sara Rains (Ed.), UK. ISBN: 978-1-903986-44-8 (1st Edition).
Thrift Helen, “DR. FRANCISCO BULNES: Mathematics and Physics International Reviewer” Reports and Certificates Compilation, SCIENCEDOMAIN International, United Kingdom, 2017.
Record Publons: Metrics and Statistics as Reviewer of Dr. Francisco Bulnes, 2018.
Bulnes, F. Stropovsvky, Y. and Rabinovich, I. (2017) Curvature Energy and Their Spectrum in the Spinor-Twistor Framework: Torsion as Indicium of Gravitational Waves. Journal of Modern Physics, 8, 1723-1736. doi: 10.4236/jmp.2017.810101.
Bulnes, F. (2013) Mathematical Nanotechnology: Quantum Field Intentionality. Journal of Applied Mathematics and Physics, 1, 25-44. doi: 10.4236/jamp.2013.15005.
F. Bulnes, “Analysis of Prospective and Development of Effective Technologies through Integral Synergic Operators of the Mechanics,” 14a. CCIA-CCIM, ISPJAE, Habana, Cuba, 2008.
Bulnes F., Teoría de la Investigación en Ciencias de la Ingeniería, Editorial Académica Española, 2010.
Simon and M. Reed, “Mathematical methods for physics, Vol. I (functional analysis),” Academic Press. N. Y., 1972.
F. Bulnes, Tratado de Matemáticas Superiores: Análisis de Señales y Sistemas, ETC, Facultad de Ciencias, UNAM, 1998.
F. Bulnes, Zuckerman Functors, Notas del Seminario de Teoría de Representaciones de Grupos de Lie Reductivos Reales, Instituto de Matemáticas, UNAM, 2003.
Bulnes F., El Modelo de Competencias en la Investigación Moderna, EAE, 2018. ISBN: 978-620-2-13528-3.
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