Zhang, X.

Zhang, X., et al. On the Explosion in a Deuterium/Palladium Electrolytic System. in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion". 1992. Nagoya Japan: Universal Academy Press, Inc., Tokyo, Japan.

An explosion in a D/Pd electrolytic system is analyzed; it is not a chemical explosion but a cold fusion reaction. A possible mechanism of cold fusion is presented.

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Zhang, Z.

Zhang, Z., et al., Calorimetric studies on the electrorefining process of copper. J. Thermal Anal., 1997. 50: p. 89.

Zhang, Z. and Z. Z., A probable theoretical model on deuterion-deuterion two-body tight bound states. Nucl. Phys. Rev. (China), 1999. 16: p. 95 [in Chinese].

Zhang, Z.-L.

Zhang, Z.-L., et al. Calorimetric Observation Combined with the Detection of Particle Emissions During the Electrolysis of Heavy Water. in Anomalous Nuclear Effects in Deuterium/Solid Systems, "AIP Conference Proceedings 228". 1990. Brigham Young Univ., Provo, UT: American Institute of Physics, New York.

Zhang, Z.-L. and S.I. Liu. Thermodynamic Theory of Cold Nuclear Fusion (C.N.F.). in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion". 1992. Nagoya Japan: Universal Academy Press, Inc., Tokyo, Japan.

Zhang, Z.-L., et al., Precision calorimetric studies of H2O electrolysis. J. Thermal Anal., 1995. 45: p. 99.

Zhang, Z.-L., et al. Measurements of Excess Heat in the Open Pd/D2O Electrolytic System by the Calvet Calorimetry. in 8th International Conference on Cold Fusion. 2000. Lerici (La Spezia), Italy: Italian Physical Society, Bologna, Italy.

Excess heat was observed in the Pd|D2O electrolytic system using a Calvet type microcalorimeter. It was found that the average excess power was 0.025 W over 79 hours period. This result corresponds to a volume excess power of 8.75 W /cm³ Pd or a surface excess power of 0.044 W /cm² Pd, and a specific excess heat of 2.48 MJ/cm³ Pd or 228 eV/atom Pd. The current density and D/Pd ratio for excess power production were lower than the recognized ‘threshold’ values 100–150 mA/cm² and 0.83–0.92 D/Pd, this indicates that the critical requirement for reproduction of the anomalous heat can be ‘cut down’ using high sensitivity calorimetry. By comparison with that of the Pd/D2O system, no anomalous excess heat was measured in the Pd/H2O electrolytic system within the experimental uncertainty.

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Zhang, Z.-L., W.-S. Zhang, and Z.-Q. Zhang. Further study on the solution of Schrödinger equation of hydrogen-like atom. in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science. 2002. Tsinghua Univ., Beijing, China: Tsinghua Univ. Press.

ABSTRACT
In this work the Schrödinger equation of the hydrogen-like atom is analytically solved. Three sets of analytical solution are obtained if the factor r^-l is not neglected. The first solution is the same as the traditional radial wave function; another one diverges; the last one is far different from the traditional solution. On the consideration of the finite size of the nucleus, the third wave function does not diverge while r approaches to zero. Its radial wave function has below characteristics: (1) the angular-momentum quantum number l must be greater than the principal quantum number n; (2) l must not be 0 or 1; (3) the electron-cloud distribution differs from the traditional one; (4) the electron is closer to the nucleus by comparison with that in traditional results. On the other hand, the validity of solutions needs to be verified experimentally.

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Zhang, Z.-L. and W.-S. Zhang. Possibility of electron capture by deuteron. in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science. 2002. Tsinghua Univ., Beijing, China: Tsinghua Univ. Press.

In this work, the results about deuteron capturing electron are obtained from some calculation according to the experimental data presented in “NUCLEAR WALLET CARDS”. The half–life of such electron capture decay is about 1.04 × 10¹¹ y, which is almost as same as t_1/2 =1.28 × 10⁹
year of K⁴⁰, the t_1/2 =1.3 × 10¹³ year of Te¹²³ and t_1/2 =1.4 × 10¹⁷ year of V⁵⁰ shown in that “CARDS”. The mass defect of this process is 6.694207691 × 10^-5 u. . . .

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Zhang, Z.-Q.

Zhang, Z.-Q., Z.-L. Zhang, and W.-S. Zhang. Are there some loose bound states of nucleus-nucleus two-body system? in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science. 2002. Tsinghua Univ., Beijing, China: Tsinghua Univ. Press.

ABSTRACT
 
We obtain the possible solutions of the stable Schrödinger equation with Coulomb barrier and square well potential induced by nuclear force for a two nuclei system. The wave functions, energy eigenvalues and the existence condition of the possible loose bound states of this system are given. The binding energy is few keV for ground states of some light nuclei here.

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Zhong, L. X.

Zhong, L.X. Searching for Truth With High Expectations- 5 Year Studies on Cold Fusion in China. in Fourth International Conference on Cold Fusion. 1993. Fourth International Conference on Cold Fusion: Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304.

Zhou, X.

Zhou, X., X.Z. Li, and B. Liu. Bethe's Calculation For Solar Energy And Selective Resonant Tunneling. in Tenth International Conference on Cold Fusion. 2003. Cambridge, MA: LENR-CANR.org.

The Selective Resonant tunneling model is compared with Bethe’s early model for the solar energy calculation. They are similar in considering the resonance effect, the weak interaction, and the assumption for nuclear potential and the Coulomb barrier in order to obtain the correct result for the energy density in the sun. However, the selectivity of resonant tunneling is new in the present selective resonant model.

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Zhu, R.

Zhu, R., et al., Measurement of anomalous neutron from deuterium/solid system. Yuanzineng Kexue Jishu (Atomic Energy Science and Technology), 1991. 25: p. 84 (in Chinese).

Zhu, R., et al., Measurement of neutron burst production in thermal cycle of D2 absorbed titanium chips. Fusion Technol., 1991. 20: p. 349.

Zhu, S. B.

Zhu, S.B., J. Lee, and G.W. Robinson, Kinetic energy imbalance in inhomogeneous materials. Chem. Phys. Lett., 1989. 161: p. 249.

Zhu, S.B., J. Lee, and G.W. Robinson, Nonlinear effects on thermonuclear reaction rates. Phys. Lett. A, 1990. 144: p. 361.

Zhu, S.B., J. Lee, and G.W. Robinson, Non-Maxwell velocity distributions in inhomogeneous materials. J. Fusion Energy, 1990. 9(4): p. 465.

Zhu, S.

Zhu, S., et al., An investigation of cold fusion. Nucl. Techniques (China), 1993. 16(8): p. 475 (in Chinese).

Ziegler, J. F.

Ziegler, J.F., et al., Electrochemical Experiments in Cold Nuclear Fusion. Phys. Rev. Lett., 1989. 62(25): p. 2929.

Zimmermann, G. J.

Zimmermann, G.J., Internal Friction and Modulus Behaviour of Pd-H with H-Contents Up to n=0.9. J. Less-Common Met., 1976. 49: p. 49.

Zuqia, H.

Zuqia, H., A possible explanation of the room temperature nuclear fusion. Beijing Shifan Daxue Xuebao. Ziran Kexueban, 1989. 2: p. 43.

Zywocinski, A.

Zywocinski, A., et al., Analysis for light atoms produced in the bulk phase of a tubular palladium/ silver alloy cathode working electrode. J. Electroanal. Chem., 1991. 319: p. 195.

Zywocinski, A., et al., Calorimetric measurements during long-term electrolysis of some LiOD solutions. Thermochim. Acta, 1992. 197: p. 277.