Nuclear and Atomic Physics

1607 Submissions

[6] viXra:1607.0539 [pdf] submitted on 2016-07-29 02:03:09

Microworld_28. Electron ‒ Window to the Universe

Authors: N.N. Leonov
Comments: 14 Pages. English and russian texts

The electron structure contains the key to understanding of the whole material World structure.
Category: Nuclear and Atomic Physics

[5] viXra:1607.0439 [pdf] submitted on 2016-07-23 11:37:32

Nuclear Forces, Gravity, Electromagnetic Force of Unity.

Authors: Terubumi Honjou
Comments: 8 Pages.

Chapter 8: Nuclear forces, gravity,electromagnetic force of unity. [1]... to the goal of modern physics and the Super grand unified theory hypothesis. [2]. elementary pulsation principle announced in 1980, with the physical society of Japan. [3]... article published in 1980, has been kept on the cinii National Institute of Informatics, Japan physical society. [4]... on the Internet Encyclopaedia Wikipedia articles. [5]... Nuclear forces, gravity, electromagnetic force of unity. [6]... unity based on elementary pulsation principle forces, gravity, electromagnetic force. [7]. structure of pulsating principle model for finite nuclei. [8]. it front and back of the same photon-photon and quantum gravity.
Category: Nuclear and Atomic Physics

[4] viXra:1607.0382 [pdf] submitted on 2016-07-20 11:30:27

Magnetized Target Fusion Using High Speed Pellets

Authors: Colin Bruce Jack
Comments: 12 Pages.

There is a way to perform inertial confinement fusion which avoids the usual need for either a sacrificial assembly of significant cost, or control of complex plasma behaviour.

Ultraspeed charged pellets have been fired at 100 km/s from modified particle accelerators for decades, and Winterberg suggested their use for inertial confinement fusion, also decades ago. The show-stopper has been the impossibility of bringing charged pellets to a true focus using predetermined electric or magnetic fields, a consequence of Earnshaw’s theorem. I have invented a technique for achieving such focusing, by measuring and adjusting the trajectories of individual pellets. Precise focus can then be achieved at any range. A series of pellets fired at successively increasing speeds from a linear accelerator some distance from a target can catch up en route to arrive together. Thus an accelerator of relatively modest power can deliver an intense input to a compact volume.

Slutz et al. have shown that high gain magneto-inertial fusion can be performed using implosion speed as low as 130 km/s. They propose Z-pinch with a magnetized liner, plus a laser pulse to preheat a central portion of the fuel. However disadvantages of this method include:

•Peak input power ~1 PW: high capital cost

•Sacrificial capsule with low impedance wires for ~60 MA input current pulse is difficult and costly to recycle: high ‘kopeck’ cost

Identical fusion conditions can be created using instead pellets fired in at high speed. This method has the advantages:

•Peak input power ~20 GW at a few MHz, provided by commercially available RF MOSFETs

•No central sacrificial capsule or wires needed; the pellets are cheap to make

This paper describes an appropriate design. The detonation can take place completely surrounded by lithium. Most of the energy produced can be directly converted to electricity by MHD.


Category: Nuclear and Atomic Physics

[3] viXra:1607.0185 [pdf] submitted on 2016-07-15 11:28:57

The Elementary Particle Pulsation Principle Leads a Hadron Super String Theory. (Amendments)

Authors: Terubumi Honjou
Comments: 8 Pages.

The elementary particle pulsation principle leads a hadron super string theory. (Amendments) A string theory of the elementary particle size. A proton and the neutron are the same elementary particles. The defect of the early string theory. A hadron of mass zero. The quark which came close. The theory was not able to explain the state. Quark A and quark B. The vibration of the same thing. Both are not separate existence. A matter wave holds a quark. A matter wave lets a quark vibrate. A matter wave is elastic body. One quark turns into quark A, quark B, quark C. The trip (the horizon) of the wave is three-dimensional space. The trip (the horizon) of the wave is film space. The mass of the hadron is zero in that. All the mass becomes the light in that.
Category: Nuclear and Atomic Physics

[2] viXra:1607.0122 [pdf] submitted on 2016-07-10 14:27:38

Protons and Neutrons.

Authors: Terubumi Honjo
Comments: 5 Pages.

Protons and neutrons. By Elementary pulsation principle to explain it. When an electron is in the orbit of the proton, a proton turns into a neutron. When an electron goes out of the orbit of the neutron, a neutron becomes the proton. The interpretation of the pulsation hypothesis, Of the atomic nucleus, A proton and the neutron are the same elementary particles. The valley of the ripple of the material wave due to the neutron pulsation, The electron goes around the valley. Proton (+ electric charge), an electron (- electric charge). The proton (+ electric charge )+ electron (- electric charge) = neutrality. Valley of the ripples of the nuclei to form electron orbitals. The electron goes around an orbit. When an electron is released from the orbit, the atom becomes the positive electric charge. As for both the atomic nucleus and the atom, the change of the electric charge depends on electronic movement. An electric charge will undergo a change. It is discontinuous (at the unit of electronic electric charge).
Category: Nuclear and Atomic Physics

[1] viXra:1607.0074 [pdf] submitted on 2016-07-07 02:04:24

About Theoretical Determination of Values of Fundamental Physical Constants

Authors: Valery B. Smolensky
Comments: Pages.

This paper presents an original method of theoretical precision determination of values of fundamental physical constants. Among them, the fine structure constant, the anomaly of the magnetic moment of the electron, the mass ratio of the electron-proton and neutron-proton, the wavelength of Compton, Rydberg constant, electron mass, Planck length, Planck mass, the speed of light in vacuum, Planck constant, gravitational constant, the life time of a neutron. The analytical insights, the end of the calculation formula and the results of theoretical calculations of precision values of these constants.
Category: Nuclear and Atomic Physics