Add to ORKGThe present paper is concerned with the derivation of the Einstein's formula of equivalence of mass and energy, E = m c 2, from the universal uncertainty relations. These relations are a generalization of the original uncertainty relations developed by Werner Heisenberg in 1927. Thus, this approach unifies two of the most important laws of physics as provides the proof of a) the quantum mechanical nature of the above formula, and, b) the correctness of the universal uncertainty relations that I found in 2012
Nonclassical physical theories including uncontrollable (quantum and/or thermal) effects leading to ...
ABSTRACT: Heisenberg argued that wave and particle are too exclusively different in properties, maki...
The certainty principle (2005) allowed to generalize and unify both the Heisenberg uncertainty princ...
The present paper is concerned with the derivation of the Einstein's formula of equivalence of ...
We explore the different meanings of “quantum uncertainty” contained in Heisenberg’s seminal paper f...
Before we can turn our attention to time-energy uncertainty relations we need to introduce some conc...
Heisenberg guessed, after he established the matrix quantum mechanics, that the non-commutativity of...
Heisenberg’s uncertainty principle is a founding pillar of quantum mechanics. This paper questions t...
Heisenberg’s uncertainty principle is a milestone of twentieth-century physics. We sketch the histor...
Probably the most famous result from quantum theory and the best-known uncertainty rela-tion is Heis...
Relativistic Heisenberg Uncertainty relation (RHU), i.e. ΔpΔx ≥ ℏ/2 1-v2c2-1 has been built as the d...
The term Heisenberg uncertainty relation is a name for not one but three distinct trade-off relation...
oday the so-called Copenhagen Interpretation of quantum mechanics dominated description of the physi...
In contrast to many other physical theories, quantum mechanics is generally regarded as above any th...
This is an entry to the Compendium of Quantum Physics, edited by F Weinert, K Hentschel and D Greenb...
Nonclassical physical theories including uncontrollable (quantum and/or thermal) effects leading to ...
ABSTRACT: Heisenberg argued that wave and particle are too exclusively different in properties, maki...
The certainty principle (2005) allowed to generalize and unify both the Heisenberg uncertainty princ...
The present paper is concerned with the derivation of the Einstein's formula of equivalence of ...
We explore the different meanings of “quantum uncertainty” contained in Heisenberg’s seminal paper f...
Before we can turn our attention to time-energy uncertainty relations we need to introduce some conc...
Heisenberg guessed, after he established the matrix quantum mechanics, that the non-commutativity of...
Heisenberg’s uncertainty principle is a founding pillar of quantum mechanics. This paper questions t...
Heisenberg’s uncertainty principle is a milestone of twentieth-century physics. We sketch the histor...
Probably the most famous result from quantum theory and the best-known uncertainty rela-tion is Heis...
Relativistic Heisenberg Uncertainty relation (RHU), i.e. ΔpΔx ≥ ℏ/2 1-v2c2-1 has been built as the d...
The term Heisenberg uncertainty relation is a name for not one but three distinct trade-off relation...
oday the so-called Copenhagen Interpretation of quantum mechanics dominated description of the physi...
In contrast to many other physical theories, quantum mechanics is generally regarded as above any th...
This is an entry to the Compendium of Quantum Physics, edited by F Weinert, K Hentschel and D Greenb...
Nonclassical physical theories including uncontrollable (quantum and/or thermal) effects leading to ...
ABSTRACT: Heisenberg argued that wave and particle are too exclusively different in properties, maki...
The certainty principle (2005) allowed to generalize and unify both the Heisenberg uncertainty princ...