Secrets of Photon Particle
Photons play a crucial role in transferring information about vision and appearance through the form of energy. They can be thought of as packets of information, similar to wireless data packets. Let’s break down the process of photon-mediated information transfer and provide examples:
- Originating from the Sun: Photons are emitted by the Sun and carry various types of information. This includes the intensity of light, which determines how bright an object appears. They also carry information about the polarization of light, which describes the orientation of the
electric field. The spectrum of light reveals the distribution of wavelengths or colors emitted by the Sun. Additionally, photons can carry information about solar activity and the composition of the Sun.
2. Interacting with objects: As photons travel through space, they may encounter objects in their path. When a photon interacts with an object, it can transfer its energy to the object. This transfer of energy can manifest as heat if the photon is absorbed by the object. In this case, the photon effectively loses its previous information, as its energy is converted into thermal energy. However, if the photon is reflected or scattered by the object, it retains some of its original information.
3. Remitting photons with object information: When photons are reflected or scattered by objects, they carry information about the object’s appearance. For example, consider an apple. When sunlight falls on the apple, it absorbs certain wavelengths of light and reflects others. The reflected photons carry information about the color of the apple, which is interpreted as the wavelength of the light they possess. The intensity of the remitted photons can also convey information about the temperature of the object.
4. Reaching our eyes: The remitted photons travel from the object to our eyes. The eyes contain specialized cells called photoreceptors, which detect the incoming photons. These photoreceptors convert the energy of the photons into electrical signals that can be processed by the brain.
5. Interpretation by the visual system: The electrical signals from the photoreceptors are processed by the visual system, including the brain, which acts as the “interpreter” or “compiler.” The brain decodes the electrical signals and combines them with other sensory inputs to form a coherent perception of the object’s appearance. This perception includes attributes such as color, shape, and texture. It is important to note that the human visual system has limitations. Our eyes are sensitive to a specific range of wavelengths (visible light) and may not perceive certain forms of energy or information. Additionally, our interpretation of visual information can be influenced by cognitive actors and prior knowledge.
Advancements in technology and scientific understanding may allow us to develop better receptors or compilers to capture and interpret a broader range of photon information. Thiscould potentially enable us to perceive aspects of the world that are currently beyond our sensory capabilities.
Regarding the transfer of information, while photons are indeed used in various communication technologies (e.g., fiber optics, wireless communication), transmitting visual information directly through photons, as in a “mind-to-mind” transfer, is still an area of scientific exploration and
remains highly complex and speculative at this stage.
Problem with our eyes:
It is possible that our eyes are specifically designed to interpret the energetic information carried by photons and present it to us in a predetermined manner. However, if the universe has dimensions beyond the three spatial dimensions we are familiar with (thus being 4D or higher), our eye receptors or compilers may be incapable of perceiving it. Similarly, if there are substances or objects in our environment that store information carried by photons but our eye receptors or compilers are not equipped to process that information due to their design limitations, we will be limited to perceiving only what the creator intended for us to see.
Nevertheless, if we were able to develop improved receptors or compilers that could process and interpret all the information contained in photons, we might be able to perceive the true reality or hidden aspects of the world. Moreover, if photons do not completely reset the information of the objects they interact with upon striking them, there is a possibility that compiling that accumulated information could allow us to see glimpses of our past experiences. In summary, there is a potential that our eyes are specifically designed to interpret the energetic information stored in photons in a predetermined manner. Our perception is limited by the capabilities of our eye receptors or compilers and the design of the universe itself. However,
advancements in our receptors or compilers could potentially enable us to perceive a more comprehensive and accurate representation of the world around us, including hidden dimensions or previously inaccessible information.
Transfer of information:
If photons are specifically engineered to transmit information from one location to another, it raises the question of why we cannot utilize them to transfer visual information. Nonetheless, through manipulation and careful control, we may eventually possess the ability to present to others whatever visual content we desire, Like a creator of universe. Moreover, once we have gained a comprehensive comprehension of the intricate mechanisms governing photons and their information transfer capabilities, we can proceed with the development of artificial particles that mimic photons, offering potential applications such as efficient information transmission and high-resolution 3D imaging of any object, from anywhere in the world.
