The science and technology of light, or photonics, contribute to a more sustainable future in a variety of industries, including consumer goods, ener...
The science and technology of light, or photonics, contribute to a more sustainable future in a variety of industries, including consumer goods, energy generation, manufacturing, healthcare, safety, and security. In reality, photonics has the potential to enhance our daily lives in a variety of contexts where light is utilized, generated, or altered.
High-power fiber lasers and biological imaging are only two examples of the innovative technologies made possible by the fascinating discipline of photonics in physics. You'll discover the theoretical underpinnings of the newest technology as well as the lab techniques necessary to make it a reality.
What education do you need to be a photonics engineer?
A bachelor's degree in photonics is a basic standard for photonics engineers. The calendar for undergraduate programs includes everything from foundational scientific topics to application-focused photonics engineering topics. Students from all backgrounds and countries can participate in the program, which gives them a solid foundation in optics and photonics for use in scientific research and technical applications in the workplace.
Your master's degree will prepare you to become a technological innovator, creating and inventing the ideas that will form the basis of the upcoming generation of satellites, sensors, robotics, quantum computers, sensors, and cell phones. Students can choose from courses that cover a wide range of subjects, such as electromagnetics, physical optics, lasers, optoelectronics, fiber optics, imaging, and more.
Career opportunities
The US Bureau of Labor Statistics (BLS) classifies occupations in photonics under the category of architecture and engineering. Between 2020 and 2030, employment in this industry is anticipated to increase by 6%. This amount corresponds to 46,000 additional employment. Engineering accounts for the majority of the anticipated employment growth in this industry.
The design and production of semiconductor light sources such as light-emitting and super luminescent diodes (LEDs and SLDs), fluorescent lighting, and cathode ray tubes offers a wide range of employment opportunities (CRTs). Career prospects in plasma display panels (PDPs), which are used in TVs, are expanding. A liquid crystal display (LCD) version known as a thin film transistor liquid crystal display (TFT-LCD) employs thin film transistor (TFT) technology to enhance image quality.