Foundations of Physics An International Journal Devoted to the
... assumption is baseless. No experimental evidence can support it. The one and only justification of this assumption is the mathematical observation that, as one of the many constraints required by internal consistency of the resulting scheme, some of the stringlike excitations (the lowest closed stri ...
... assumption is baseless. No experimental evidence can support it. The one and only justification of this assumption is the mathematical observation that, as one of the many constraints required by internal consistency of the resulting scheme, some of the stringlike excitations (the lowest closed stri ...
Chemistry 871/671/495, Structure and Bonding
... on quantum mechanics. In this course, we will introduce quantum mechanical principles and their applications to atomic and molecular systems. We will start by discussing the failures of classical physics, and the birth of quantum mechanics. Then, basic quantum mechanical concepts such as wave functi ...
... on quantum mechanics. In this course, we will introduce quantum mechanical principles and their applications to atomic and molecular systems. We will start by discussing the failures of classical physics, and the birth of quantum mechanics. Then, basic quantum mechanical concepts such as wave functi ...
Particle Physics and the LHC
... The Naturalness Argument • If there are very large/small parameters in a quantum theory, there must be a good reason why they are so small…. • In general, there will be large quantum corrections to such parameters in higher orders of perturbation theory, in terms of other parameters which are not s ...
... The Naturalness Argument • If there are very large/small parameters in a quantum theory, there must be a good reason why they are so small…. • In general, there will be large quantum corrections to such parameters in higher orders of perturbation theory, in terms of other parameters which are not s ...
Quantum mechanics is the theory that we use to describe the
... However this was not to be. Conflicts and inconsistencies soon arose due to the fundamental differences between relativity and quantum mechanics, which will be elaborated on in later pages. One fundamental difference is that general relativity says that spacetime is warped due to the presence of mas ...
... However this was not to be. Conflicts and inconsistencies soon arose due to the fundamental differences between relativity and quantum mechanics, which will be elaborated on in later pages. One fundamental difference is that general relativity says that spacetime is warped due to the presence of mas ...
Exceptional Lie Groups, E-infinity Theory and
... 3. MSSM and the number of the Higgs particles A minimal supersymmetric extension of the standard model (MSSM) by El-Naschie, predicted that the total number of the particles in the standard model is 66 particles. These are the known 60 experimentally confirmed particles, 5 massive spin zero Higgs b ...
... 3. MSSM and the number of the Higgs particles A minimal supersymmetric extension of the standard model (MSSM) by El-Naschie, predicted that the total number of the particles in the standard model is 66 particles. These are the known 60 experimentally confirmed particles, 5 massive spin zero Higgs b ...
The Electromagnetic Shift of Energy Levels
... cordingly, it may be expected that in the hole theory, in which the main term (self-energy of the electron) diverges only logarithmically, the result will be convergent after subtraction of the free electron expression. ' This would set an effective upper limit of the order of mc' to the frequencies ...
... cordingly, it may be expected that in the hole theory, in which the main term (self-energy of the electron) diverges only logarithmically, the result will be convergent after subtraction of the free electron expression. ' This would set an effective upper limit of the order of mc' to the frequencies ...
... The new quantum mechanics, when applied to the problem of the structure of the atom with point-charge electrons, does not give results in agreement with experiment. The discrepancies consist of " duplexity " phenomena, the observed number of stationary states for an electron in an atom being twice t ...
Inverse quantum mechanics of the hydrogen atom: A
... Intensive laboratory research over much of the past decade at the Technical University of Eindhoven 1 and at Blacklight Power, see Ref. [3] for a review of the several publications in refereed journals, on what has come to be known as the “hydrino” state of hydrogen has sent theorists scurrying to e ...
... Intensive laboratory research over much of the past decade at the Technical University of Eindhoven 1 and at Blacklight Power, see Ref. [3] for a review of the several publications in refereed journals, on what has come to be known as the “hydrino” state of hydrogen has sent theorists scurrying to e ...
Nanodevices and nanostructures: quantum wires and quantum …
... Quantum dot is confined in 3 dimensions and quantum line is confined in 2 dimensions. ...
... Quantum dot is confined in 3 dimensions and quantum line is confined in 2 dimensions. ...
A summary on Solitons in Quantum field theory
... Finite energy solutions are crucial to understand the interplay between the topology of space-time and physical phenomena. It is very important to deepen our understanding of these kind of solutions because they might be useful in the discovery of new physical phenomena. The study of one (1+1)-dimen ...
... Finite energy solutions are crucial to understand the interplay between the topology of space-time and physical phenomena. It is very important to deepen our understanding of these kind of solutions because they might be useful in the discovery of new physical phenomena. The study of one (1+1)-dimen ...
The Future of Computer Science
... 10 Years of My Other Research in 1 Slide The Information Content of Quantum States For many practical purposes, the “exponentiality” of quantum states doesn’t actually matter—there’s a shorter classical description that works fine Describing quantum states on efficient measurements only [A. 2004], ...
... 10 Years of My Other Research in 1 Slide The Information Content of Quantum States For many practical purposes, the “exponentiality” of quantum states doesn’t actually matter—there’s a shorter classical description that works fine Describing quantum states on efficient measurements only [A. 2004], ...
Doc - Paradigm Shift Now
... They are harmless so the neutrino experiments require no shielding. They are the most common objects in the universe, outnumbering electrons or protons by a thousand million to one: the universe is a sea of Neutrinos punctuated by other particles. Hundreds of types of Hadons. The decisive step in un ...
... They are harmless so the neutrino experiments require no shielding. They are the most common objects in the universe, outnumbering electrons or protons by a thousand million to one: the universe is a sea of Neutrinos punctuated by other particles. Hundreds of types of Hadons. The decisive step in un ...