Draw of Infinite Energy from Space and Negations of Two Important Laws

Author(s)
Fusui Liu

ABSTRACT

This paper shows that energy of 105 ton of oil can be obtained from space by fs (fermtosecond) eletromagnetic pulse technique in one second and one cm3 without any loss. This paper shows that the energy conservation law and Fermi golden rule should be negatived in some cases. The negation of Fermi golden rule has important influences on many fields based on quantum mechanics. For example, the present knowledge on the charge distribution in atomic nucleus might be wrong completely. This paper emphasizes that the proposition on introducing the concept of the energy support ability in space will cause a series of unimaginable discoveries, and, therefore is of epoch-making significance. This paper gives indirect experimental verifications for the necessity of introducing the concept of energy support ability in space, and suggests a very simple experiment to show directly that the energy conservation law and Fermi golden rule should be negatived in some cases.

This paper shows that energy of 105 ton of oil can be obtained from space by fs (fermtosecond) eletromagnetic pulse technique in one second and one cm3 without any loss. This paper shows that the energy conservation law and Fermi golden rule should be negatived in some cases. The negation of Fermi golden rule has important influences on many fields based on quantum mechanics. For example, the present knowledge on the charge distribution in atomic nucleus might be wrong completely. This paper emphasizes that the proposition on introducing the concept of the energy support ability in space will cause a series of unimaginable discoveries, and, therefore is of epoch-making significance. This paper gives indirect experimental verifications for the necessity of introducing the concept of energy support ability in space, and suggests a very simple experiment to show directly that the energy conservation law and Fermi golden rule should be negatived in some cases.

Cite this paper

nullF. Liu, "Draw of Infinite Energy from Space and Negations of Two Important Laws,"*Energy and Power Engineering*, Vol. 2 No. 3, 2010, pp. 137-142. doi: 10.4236/epe.2010.23020.

nullF. Liu, "Draw of Infinite Energy from Space and Negations of Two Important Laws,"

References

[1] L. I. Schiff, “Quantum Mechanics,” McGraw-Hill Book Company, New York, 1968.

[2] W. Greiner, “Quantum Mechanics: An Introduction,” 3rd Edition, Springer-Verlag Belin Heidelberg, New York, 1994.

[3] L. D. Landau and E. M. Lifshitz, “Quantum Mechanics: Non-Relativistic theory,” Pergamon Press, Oxford, 1958.

[4] A. S. Davidov, “Quantum Mechanics,” 2nd Edition, Pergamon Press, Oxford, 1976.

[5] B. R. Desai, “Quantum Mechanics,” Cambridge University, Cambridge, 2010.

[6] E. R. Bittner, “Quantum Dynamics: Applications in Biological and Materials Systems,” Taylor and Francis/CRC Press, New York, 2010.

[7] R. L. Liboff, “Introductory Quantum Mechanics,” Addison-Wesley, New York, 2003.

[8] K. T. Hecht, “Quantum Mechanics,” Springer-Verlag, New York, 2000.

[9] A. I. M. Rae, “Quantum Mechanics,” Taylor and Francis, New York, 2008.

[10] E. Elbaz, “Quantum: The Quantum Theory of Particles, Fields, and Cosmology,” Springer, New York, 1998.

[11] J. J. Sakurai and S. F. Tuan, “Modern Quantum Mechanics,” Addison-Wesley, New York, 1994.

[12] S. L. Kakani and S. Kakani, “Nuclear and Particle Physics,” Anshan, Kent, 2008.

[13] B. R. Martin, “Nuclear and Particle Physics,” 2nd Edition, John Wisley and Sons Ltd, West Eussex, 2009.

[14] F. S. Liu and C. Wen, “Dynamics of Continuous-Time Random Walk, Fractional Time Dispersion, and Fractional Exponential Time Relaxation,” Physical Review B (Condensed Matter), Vol. 40, No. 10, 1989, pp. 7091- 7095.

[15] F. S. Liu and W. F. Chen, “A New Universal Theory of Non-Exponential Relaxation,” Journal Physics D: Applied Physics, Vol. 27, No. 4, 1994, pp. 845-847.

[16] F. S. Liu, K. D. Peng and W. F. Chen, “Departure from Fermi Golden Rule,” International Journal of Theoretical Physics, Vol. 40, No. 11, 2001, pp. 2037- 2043.

[17] F. S. Liu and W. F. Chen, “Necessity of Exact Calculation for Transition Probability,” Communications in Theoretical Physics, Beijing, Vol. 39, No. 2, 2003, pp. 209-211.

[18] F. S. Liu and W. F. Chen, “Phonon-Induced Hopping Rate Enhancement in the Pd-D System,” Journal of Phy- sics: Condensed Matter, Vol. 15, No. 29, 2003, pp. 4995- 5000.

[19] F. S. Liu, Y. M. Hou and W. F. Chen, “Theory of Fusion during Acoustic Cavitation in Liquid,” Journal of Condensed Matter Nuclear Science, Vol. 1, No. 1, 2007, pp.142-147.

[20] F. S. Liu and W. F. Chen, “The Effect of Phonon-Induced Hopping Enhancement and Exact Theory of Cold Fusion,” Communications in Theoretical Physics. Vol. 23, No. 2, 1995, pp. 241-244.

[21] G. Amelino-Camelia, “Quantums Theory’s Last Chall- ange,” Nature (London), Vol. 408, No. 6813, 2000, pp. 661-664.

[1] L. I. Schiff, “Quantum Mechanics,” McGraw-Hill Book Company, New York, 1968.

[2] W. Greiner, “Quantum Mechanics: An Introduction,” 3rd Edition, Springer-Verlag Belin Heidelberg, New York, 1994.

[3] L. D. Landau and E. M. Lifshitz, “Quantum Mechanics: Non-Relativistic theory,” Pergamon Press, Oxford, 1958.

[4] A. S. Davidov, “Quantum Mechanics,” 2nd Edition, Pergamon Press, Oxford, 1976.

[5] B. R. Desai, “Quantum Mechanics,” Cambridge University, Cambridge, 2010.

[6] E. R. Bittner, “Quantum Dynamics: Applications in Biological and Materials Systems,” Taylor and Francis/CRC Press, New York, 2010.

[7] R. L. Liboff, “Introductory Quantum Mechanics,” Addison-Wesley, New York, 2003.

[8] K. T. Hecht, “Quantum Mechanics,” Springer-Verlag, New York, 2000.

[9] A. I. M. Rae, “Quantum Mechanics,” Taylor and Francis, New York, 2008.

[10] E. Elbaz, “Quantum: The Quantum Theory of Particles, Fields, and Cosmology,” Springer, New York, 1998.

[11] J. J. Sakurai and S. F. Tuan, “Modern Quantum Mechanics,” Addison-Wesley, New York, 1994.

[12] S. L. Kakani and S. Kakani, “Nuclear and Particle Physics,” Anshan, Kent, 2008.

[13] B. R. Martin, “Nuclear and Particle Physics,” 2nd Edition, John Wisley and Sons Ltd, West Eussex, 2009.

[14] F. S. Liu and C. Wen, “Dynamics of Continuous-Time Random Walk, Fractional Time Dispersion, and Fractional Exponential Time Relaxation,” Physical Review B (Condensed Matter), Vol. 40, No. 10, 1989, pp. 7091- 7095.

[15] F. S. Liu and W. F. Chen, “A New Universal Theory of Non-Exponential Relaxation,” Journal Physics D: Applied Physics, Vol. 27, No. 4, 1994, pp. 845-847.

[16] F. S. Liu, K. D. Peng and W. F. Chen, “Departure from Fermi Golden Rule,” International Journal of Theoretical Physics, Vol. 40, No. 11, 2001, pp. 2037- 2043.

[17] F. S. Liu and W. F. Chen, “Necessity of Exact Calculation for Transition Probability,” Communications in Theoretical Physics, Beijing, Vol. 39, No. 2, 2003, pp. 209-211.

[18] F. S. Liu and W. F. Chen, “Phonon-Induced Hopping Rate Enhancement in the Pd-D System,” Journal of Phy- sics: Condensed Matter, Vol. 15, No. 29, 2003, pp. 4995- 5000.

[19] F. S. Liu, Y. M. Hou and W. F. Chen, “Theory of Fusion during Acoustic Cavitation in Liquid,” Journal of Condensed Matter Nuclear Science, Vol. 1, No. 1, 2007, pp.142-147.

[20] F. S. Liu and W. F. Chen, “The Effect of Phonon-Induced Hopping Enhancement and Exact Theory of Cold Fusion,” Communications in Theoretical Physics. Vol. 23, No. 2, 1995, pp. 241-244.

[21] G. Amelino-Camelia, “Quantums Theory’s Last Chall- ange,” Nature (London), Vol. 408, No. 6813, 2000, pp. 661-664.