Measurement Problem & the True Nature of the Observer

James Kowall

Abstract


The measurement problem of quantum theory remains unresolved in terms of how the quantum state of the physical world can be reduced to an observed state of the world. In the conventional formulation of quantum theory, the quantum state of the physical world is understood as an unobserved state of potentiality or a quantum wavefunction that must collapse into an observed state of actuality for the physical world to actually be observed. The unresolved issue of the quantum measurement problem is about the true nature of the observer. This question about the true nature of the observer explodes when we understand the quantum state of the physical world in terms of the holographic principle of quantum gravity, which tells us the fundamental nature of the physical world is quantized bits of information, called qubits, encoded on a holographic screen. The holographic screen in turn can be understood as an event horizon that arises in an observer's accelerated frame of reference. This way of understanding the holographic principle can be understood in terms of matrix models that utilize non-commutative geometry. The holographic principle understood in the context of an observer in an accelerated frame of reference has something important to tell us about the true nature of the observer, which is that every observer is at the center of its own holographic screen that defines its own observable holographic world.


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ISSN: 2153-831X