Binary Quantum and Chirality Based String-Torus Network
Binary Quantum and Chirality Based String-Torus Network
В работе предлагается концептуальная модель фундаментального слоя реальности, в которой базовым объектом является бинарный квант с двумя состояниями, трактуемыми как противоположные хиральности одной и той же геометрической структуры. На локальном уровне такой квант описывается как шар с внутренним торовым режимом и внешними струнными связями; на глобальном уровне множество квантов образует хиральную сеть узлов и струн. Модель формализуется в терминах кубита в двумерном комплексном гильбертовом пространстве, оператора хиральности и тензорно устроенного глобального пространства состояний, а также связывается с планковскими масштабами как слоем «сырой» бинарной геометрии. Струнные и петлевые подходы к квантовой гравитации предлагается рассматривать как частные эффективные описания разных проекций этой бинарно-хиральной сети.
This work proposes a conceptual model of a fundamental layer of reality in which the basic object is a binary quantum with two states, interpreted as opposite chiralities of a single geometric structure. At the local level, a quantum is represented as a ball with an internal toroidal regime and external string connections; at the global level, an infinite chiral network of nodes and strings emerges. The model is formalized in terms of a qubit in a two-dimensional complex Hilbert space, a chirality operator and a tensor-structured global state space, and it is linked to Planck scales as a layer of “raw” binary geometry. String theory and loop quantum gravity are then viewed as effective descriptions of different projections of this binary–chiral network. For feedback or questions: Email: linkoln.linty@gmail.com
fundamental constants, arrow of time, quantum space, Planckian regime, information theory in physics, Big Bang cosmology, bits and qubits, unification of fundamental interactions, computational universe, philosophy of physics, cosmological constant problem, inflation, layered reality, quantum field theory, binary code of reality, problem of quantum gravity, hierarchy problem, information-based physics, black holes, mathematical structures, quantum foundations, phase transitions, quantum imprint, layered universe, quantum gravity, Standard Model of particle physics, binary energy, cosmology, emergent space-time
fundamental constants, arrow of time, quantum space, Planckian regime, information theory in physics, Big Bang cosmology, bits and qubits, unification of fundamental interactions, computational universe, philosophy of physics, cosmological constant problem, inflation, layered reality, quantum field theory, binary code of reality, problem of quantum gravity, hierarchy problem, information-based physics, black holes, mathematical structures, quantum foundations, phase transitions, quantum imprint, layered universe, quantum gravity, Standard Model of particle physics, binary energy, cosmology, emergent space-time
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