Quantum physics is a branch of physics that describes the behavior of particles and systems at the quantum level. While it is true that many experimental proofs and observations in quantum physics are often visual in nature, such as patterns on detectors or interference fringes, it is important to note that quantum physics is not solely a visual science. It is a scientific framework that provides a mathematical description of the underlying physical reality.
Quantum physics goes beyond what our senses can directly perceive, as it deals with phenomena at the atomic and subatomic scales. While our observations and measurements are typically based on visual effects or other measurable quantities, the interpretation and understanding of these effects rely on mathematical formalisms and theoretical frameworks.
In the context of machine reading, quantum physics can indeed be useful. Quantum mechanics is foundational to various technologies, including quantum computing, quantum cryptography, and quantum sensing. These technologies rely on the principles and phenomena described by quantum physics to achieve specific tasks. While the intricacies of quantum mechanics can be complex, and direct visual observations may not be possible at the quantum level, the underlying principles and mathematical models can still be applied and utilized in the design and development of quantum-based technologies.
It's worth noting that machine reading, as the task of enabling machines to understand and extract information from text, is primarily rooted in natural language processing and machine learning techniques. While quantum computing may have the potential to offer speedup in certain aspects of machine learning algorithms, it is not directly related to the visual aspects of quantum physics. Quantum physics can be a foundational science that underpins various technologies, but its direct impact on machine reading would typically be in the realm of enabling faster computations or addressing specific computational challenges rather than visual interpretation.