Add to ORKGIt is well known that quantum correlations are not only more disciplined (and hence stronger) compared to classical correlations, but they are more disciplined in a mathematically very precise sense. This raises an important physical question: What is responsible for making quantum correlations so much more disciplined? Here we explain the observed discipline of quantum correlations by identifying the symmetries of our physical space with those of a parallelized 7-sphere. We substantiate this identification by proving that any quantum correlation can be understood as a classical, local-realistic correlation among a set of points of a parallelized 7-sphere
(a) Why quantum correlations are weird: Hardy’s nonlocality paradox, (b) Brief recap of quantum kine...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
It is well known that quantum correlations are not only more disciplined (and hence stronger) compar...
It is well known that quantum correlations are not only more disciplined (and hence stronger) compar...
The discipline of parallelization in the manifold of all possible measurement results is shown to be...
The exceptional Lie group E8 plays a prominent role both in mathematics and theoretical physics. It ...
The exceptional Lie group E8 plays a prominent role in both mathematics and theoretical physics. It ...
The exceptional Lie group E8 plays a prominent role both in mathematics and theoretical physics. It ...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
The exceptional Lie group E_8 plays a prominent role both in mathematics and theoretical physics. It...
The exceptional Lie group E_8 plays a prominent role both in mathematics and theoretical physics. It...
The exceptional Lie group E_8 plays a prominent role both in mathematics and theoretical physics. It...
Quantum correlations have been an integral if sometimes discomforting aspect of quantum theory for o...
This paper argues that there is no conflict between quantum theory and relativity, and that quantum ...
(a) Why quantum correlations are weird: Hardy’s nonlocality paradox, (b) Brief recap of quantum kine...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
It is well known that quantum correlations are not only more disciplined (and hence stronger) compar...
It is well known that quantum correlations are not only more disciplined (and hence stronger) compar...
The discipline of parallelization in the manifold of all possible measurement results is shown to be...
The exceptional Lie group E8 plays a prominent role both in mathematics and theoretical physics. It ...
The exceptional Lie group E8 plays a prominent role in both mathematics and theoretical physics. It ...
The exceptional Lie group E8 plays a prominent role both in mathematics and theoretical physics. It ...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
The exceptional Lie group E_8 plays a prominent role both in mathematics and theoretical physics. It...
The exceptional Lie group E_8 plays a prominent role both in mathematics and theoretical physics. It...
The exceptional Lie group E_8 plays a prominent role both in mathematics and theoretical physics. It...
Quantum correlations have been an integral if sometimes discomforting aspect of quantum theory for o...
This paper argues that there is no conflict between quantum theory and relativity, and that quantum ...
(a) Why quantum correlations are weird: Hardy’s nonlocality paradox, (b) Brief recap of quantum kine...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...
Quantum theory is not only successfully tested in laboratories every day but also constitutes a robu...