Add to ORKGQuantum theory brought an irreducible lawlessness in physics. This is accompanied by lack of specification of state of a system. We can not measure states even though they ever existed. We can measure only transition from one state into another. We deduce this lack of determination of state mathematically, and thus provide formalism for maximum precision of determination of mixed states. However, the results thus obtained show consistency with Heisenberg's uncertainty relations
Heisenberg’s uncertainty principle is a founding pillar of quantum mechanics. This paper questions t...
A more detailed derivation of the Heisenberg uncertainty principle from the certainty principle is g...
We exhibit three inequalities involving quantum measurement, all of which are sharp and state indepe...
Quantum theory brought an irreducible lawlessness in physics. This is accompanied by lack of specifi...
Heisenberg's uncertainty principle, which imposes intrinsic restrictions on our ability to predict ...
As a foundation of quantum physics, uncertainty relations describe ultimate limit for the measuremen...
Heisenberg, 1927: Given two (or more) quantum observables one cannot predict with certainty and simu...
The uncertainty principle, originally formulated by Heisenberg1, clearly illustrates the difference ...
We present a brief review of the impact of the Heisenberg uncertainty relations on quantum optics. I...
The EPR argued that quantum mechanics is an incomplete description of reality. So far, the Heisenber...
This is an entry to the Compendium of Quantum Physics, edited by F Weinert, K Hentschel and D Greenb...
We argue about quantum entanglement and the uncertainty principle through the tomographic ...
Unsolved controversies about uncertainty relations and quantum measurements still persists nowadays....
In contrast to many other physical theories, quantum mechanics is generally regarded as above any th...
The term Heisenberg uncertainty relation is a name for not one but three distinct trade-off relation...
Heisenberg’s uncertainty principle is a founding pillar of quantum mechanics. This paper questions t...
A more detailed derivation of the Heisenberg uncertainty principle from the certainty principle is g...
We exhibit three inequalities involving quantum measurement, all of which are sharp and state indepe...
Quantum theory brought an irreducible lawlessness in physics. This is accompanied by lack of specifi...
Heisenberg's uncertainty principle, which imposes intrinsic restrictions on our ability to predict ...
As a foundation of quantum physics, uncertainty relations describe ultimate limit for the measuremen...
Heisenberg, 1927: Given two (or more) quantum observables one cannot predict with certainty and simu...
The uncertainty principle, originally formulated by Heisenberg1, clearly illustrates the difference ...
We present a brief review of the impact of the Heisenberg uncertainty relations on quantum optics. I...
The EPR argued that quantum mechanics is an incomplete description of reality. So far, the Heisenber...
This is an entry to the Compendium of Quantum Physics, edited by F Weinert, K Hentschel and D Greenb...
We argue about quantum entanglement and the uncertainty principle through the tomographic ...
Unsolved controversies about uncertainty relations and quantum measurements still persists nowadays....
In contrast to many other physical theories, quantum mechanics is generally regarded as above any th...
The term Heisenberg uncertainty relation is a name for not one but three distinct trade-off relation...
Heisenberg’s uncertainty principle is a founding pillar of quantum mechanics. This paper questions t...
A more detailed derivation of the Heisenberg uncertainty principle from the certainty principle is g...
We exhibit three inequalities involving quantum measurement, all of which are sharp and state indepe...