Nuclear and Atomic Physics

1609 Submissions

[8] viXra:1609.0388 [pdf] submitted on 2016-09-27 06:51:59

Appearance of Magic Numbers in the Unified Approach for the Nuclear Structure

Authors: Ranjeet Dalal
Comments: 6 Pages.

Taking the clues from the recently observed phenomena like correlated neutron-proton ejection from nuclei by energetic e-/protons, EMC effect and inconsistent assumptions of liquid drop and shell models for the same set of nuclei (for explanation of different nuclear properties), a unified approach for the nuclear structure was suggested by the author [1]. In the proposed approach, instead of freely moving individual neutrons/protons, nucleons exist in the form of tightly bound np and npn (and pnp also for proton rich nuclei) quasi-particles, which move in overall Coulomb well due to all other quasi-particles. The proposed approach was found to be very useful in understanding many unexplained phenomena [1]. Now, the existence of np and npn quasi-particles is found to be strongly confirmed by the presence of magic numbers across the periodic table where many stable nuclei with different atomic number are found to be have same number of np and npn. For example, there are 30 different stable (or most stable isotope of nuclei with no stable isotope) nuclei with different Z having the magic number of 38 np, 20 nuclei with the magic number of 32 np and 16 with magic number of 40 np.
Category: Nuclear and Atomic Physics

[7] viXra:1609.0330 [pdf] submitted on 2016-09-23 01:52:00

Microworld_30. the Hidden Matter Problem

Authors: N.N.Leonov
Comments: 8 Pages. English and russian texts

A Reason for Stagnation in the Problem of Hidden Mass - Academic Insufficiency of the Quantum Theory and of the Relativity Theory
Category: Nuclear and Atomic Physics

[6] viXra:1609.0320 [pdf] submitted on 2016-09-22 06:58:49

Microworld_29. Magnetism and Matter

Authors: N.N.Leonov
Comments: 12 Pages. English and russian texts

Which structures of the material world are formed through magnetism?
Category: Nuclear and Atomic Physics

[5] viXra:1609.0118 [pdf] submitted on 2016-09-09 15:51:09

Could the Electrostatic Force Play a Role in Holding the Atomic Nucleus Together?

Authors: Peter Horst Rehm
Comments: 9 Pages.

An unheralded property of the electrostatic force is that as the distance between charges approaches zero the force increases exponentially without bound. Applied to the nucleus, if a positive fractional charge in one nucleon can get close enough to a negative fractional charge in a neighboring nucleon, the attractive force between them can overcome the repulsive force among protons. An effective distance of about 5% of the radius of a nucleon corresponds to an attractive force of -25 kN, which is consistent with the nuclear force as previously measured. As positive and negative fractional charges occur in both protons and neutrons, this charge-based attraction can potentially occur in a manner that is independent of the net charge of each nucleon. This form of electrostatic bonding may therefore be a significant factor in the nuclear force and may shed light upon the structure of the nucleons and the atomic nucleus.
Category: Nuclear and Atomic Physics

[4] viXra:1609.0087 [pdf] submitted on 2016-09-07 05:13:22

Hydrogen Atom Exotic State. Part One

Authors: Arayik Emilevich Danghyan
Comments: 14 Pages. The article is a translation from the Russian language previously published work.

In the scientific community dominates the conviction that the hydrogen atom is the simplest, and existing theories based on equations of Schrodinger and Dirac fully describe all the subtleties of behavior of an electron in a hydrogen atom. In this paper and in the following articles will be shown that in addition to the known state-based solutions of the Schrödinger and Dirac equations, there are states which were not studied and they were not known, or often simply were discarded with the phrase "have no physical meaning." Further it will be shown that the existing equations of quantum mechanics, namely the Dirac equation, Klein-Gordon equation and especially the Schrödinger equation, can not accurately describe all the subtleties of behavior of an electron in a hydrogen atom. As a result there will be given a reasonable basis for the feasibility of an experimental search or targeted synthesis of new unknown states of the hydrogen atom.
Category: Nuclear and Atomic Physics

[3] viXra:1609.0086 [pdf] submitted on 2016-09-07 05:22:00

Hydrogen Atom Exotic State. Part Two

Authors: Arayik Emilevich Danghyan
Comments: 13 Pages. The article is a translation from the Russian language previously published work.

In the study of the hydrogen atom, in order to reveal all the details of the behavior of an electron, one of the main conditions is the use of the correct, appropriate equations. Until recently, this applied Schrödinger equation, Klein-Gordon and Dirac. Schrödinger equation will not analyze because it is not relativistic, and therefore can not qualify for a full and accurate description of the range of high energies and velocities. It will be shown as the Klein-Gordon equation is also unacceptable, because the assumption is deeply disguised errors in the derivation of this equation. Since, in connection with the intended purpose, we will analyze the behavior of an electron in the states with energy below the ground state, it will be shown that the same should be treated with some suspicion in this regard to the results of the Dirac equation. As a result, the only acceptable equation is the equation М2 [1].
Category: Nuclear and Atomic Physics

[2] viXra:1609.0032 [pdf] submitted on 2016-09-03 06:48:26

Physicochemical and Spectral Characterization of Biofield Energy Treated 4-Methylbenzoic Acid

Authors: Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Gopal Nayak
Comments: 8 Pages.

The present study was aimed to analyse the impact of biofield energy treatment on the physicochemical and spectral properties of 4-MBA. The compound was divided into two parts which are referred as the control and treated sample. The treated sample was subjected to Mr. Trivedi’s biofield energy treatment and analysed with respect to the control sample. The various analytical techniques used were X-ray diffraction (XRD), surface area analysis, differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), Fourier transform infrared (FT-IR), and UV-visible spectroscopy. The XRD data revealed the alteration in the relative intensities of the peaks as well as reduction in the average crystallite size (24.62%) of the treated sample as compared to the control. The surface area analysis revealed a slight reduction in the surface area of the treated sample. The differential scanning calorimetry analysis reported a slight increase in the melting point while significant reduction in the latent heat of fusion of the treated sample (39.96 J/g) as compared to the control (133.72 J/g). Moreover, the TGA thermogram of the treated sample revealed the reduction in the onset temperature and maximum thermal degradation temperature as compared to the control. However, the FT-IR and UV-Vis spectra of treated sample did not show any significant alteration as compared to their respective control spectra. The overall data indicated the improved physical and thermal properties of the biofield treated 4-MBA sample that might be helpful in increasing the reaction kinetics, where it will be used as a reaction intermediate.
Category: Nuclear and Atomic Physics

[1] viXra:1609.0017 [pdf] submitted on 2016-09-02 01:28:22

Physicochemical Evaluation of Biofield Treated Peptone and Malmgren Modified Terrestrial Orchid Medium

Authors: Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Gopal Nayak
Comments: 9 Pages.

Peptone and Malmgren modified terrestrial orchid (MMTO) has been used as a growth medium for tissue culture applications. This research study was conducted to explore the influence of Mr. Trivedi’s biofield energy treatment on physicochemical properties of peptone and MMTO. The study was performed in two groups i.e. control and treated. The control group was kept aside as untreated, and the treated group was received the biofield energy treatment. The control and treated samples were further subjected to characterization by X-ray diffraction (XRD), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), Fourier transform infrared (FT-IR) spectroscopy, particle size analyzer and surface area analyzer. The XRD analysis revealed the amorphous nature of the control and treated peptone samples. The DSC analysis showed an increase in thermal denaturation temperature of the treated peptone (196.22°C) as compared to the control sample (141.20°C). Additionally, the exothermic peak of treated sample (280°C) was increased as compared to the control (270°C). The DSC of control and treated MMTO showed the absence of the melting temperature in their respective DSC thermograms. The TGA analysis of the treated peptone showed an increase in onset of thermal degradation (172°C) with respect to the control (170°C). Nevertheless, the TGA thermogram of the treated MMTO (293.96°C) showed an increase in maximum thermal degradation temperature (Tmax) as compared with the control (281.41°C). It indicated the good thermal stability of the treated peptone and MMTO samples. The FT-IR result of the treated peptone showed an upward shift in C-H (2817→2833 cm-1), and amide I (1635→1641 cm-1), stretching in the treated sample with respect to the control sample. Whereas, the FT-IR spectrum of the treated MMTO showed an increase in the frequency of the C-H (2817→2833 cm-1) and amide I (1596→1606 cm-1) bands as compared to the control. Particle size analysis of the treated peptone showed an increase in d50 (average particle size) and d99 (size exhibited by 99% of particles) by 9.3 and 41.4%, respectively with respect to the control. Surface area analysis showed increase in surface area by 4.3% in the treated peptone. Altogether, the results corroborated that the biofield energy treatment had altered the physical, thermal and spectral properties of peptone and MMTO. It is assumed that biofield treated peptone and MMTO could be utilized as potential candidates for cell culture applications.
Category: Nuclear and Atomic Physics