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Crystal growth is the process by which crystals are formed from a liquid or gas. This phenomenon occurs naturally in geological processes, but it can also be induced in the laboratory. The growth of crystals is influenced by various factors, such as temperature, pressure, and chemical composition of the solution. The crystal growth process is of great interest to scientists and engineers, as it has important applications in various fields, such as materials science, electronics, and medicine. Optical properties of crystals are also an area of interest for scientists and engineers. The term "optical properties" refers to how a crystal interacts with light. This includes its ability to absorb, transmit, reflect, and refract light. The study of optical properties is essential in the development of advanced materials for applications in photonics, solar cells, and sensors. In summary, crystal growth and optical properties are important areas of research in materials science and engineering. The growth of crystals can be controlled to produce materials with specific properties, and the study of optical properties can provide valuable information about a crystal's structure and defects. By investigating these two areas together, can develop advanced materials with tailored optical properties for a wide range of applications.