Applications of Ocean Optics
Ocean optics is a leader in the industry of high-tech, high resolution imaging devices. Ocean Optics offers state-of-the-art devices and equipment to help in scientific research, environmental monitoring, underwater engineering, surface exploration and more. Their products are utilized in a wide variety of applications across the sciences, including biology, chemistry, hydrology, oceanography, astrobiology, geology, archeology, and marine sciences.
Ocean Optics provides state-of-the-art optical microscopy cameras and instruments to support diverse applications in scientific research, scientific observation and operational studies, in the marine sciences, and more. This company's products improve quality of life and reduce costs while simultaneously increasing productivity, efficiency, and accuracy. Ocean Optics' microscopic spectrometer and microarray technologies allow for the detection and measurement of molecules, ions, and other atoms and particles at any scale from a few anglers to a full marine bio cruise. The microscopic spectrometer is also useful in crime and forensic investigation, archaeological and anthropological research, and the study of the Earth's climate. These devices and products are utilized in many diverse applications across the sciences, including biology, chemistry, hydrology, geology, archeology, and marine sciences.
Ocean optics provides state-of-the-art marine biological instrumentation and laboratory equipment. The company has designed and fabricated low cost, fully functional, fully featured and user-friendly microscopic spectrometers. The microarray spectrum analyzer and spectroscopy probe is one of the industry leaders. The multi-parameter, fully optimized microarray spectrum analyzer and spectroscopy probes are also innovative and highly advanced.
Ocean optics manufactures and provides fiber optic chemical sensing and analysis instruments. These include carbon isotope ratios experiments, alkalinity and salinity experiments, and seawater chemistry and other oceanographic data collection instruments. Ocean spectroscopy is a scientific process used to detect and monitor chemical reactions taking place at various depths of the ocean. These instruments are able to make precise measurements, and determine data with unparalleled accuracy. Several types of spectroscopic techniques supported by ocean optics are used for such purposes.
The instruments provide high precision and maximum resolution imaging and spectroscopy. It is utilized to study gases, chemicals, light, and water. There is no requirement for electrical energy and it does not require any fuel source. Ocean optics is used to study phenomena like permeability, solubility, permeability increase, density, and surface tension. Optical sensing is a unique capability of some ocean optics devices.
There are some specific applications of oceanography spectrometers. Coastal erosion, the coastal structure of islands, and fault lines are all studied using this technology. Coastal erosion occurs due to the gradual movement of the land mass over time. Scientists use optical sensors to study different processes that take place when the land mass moves. By studying the effects of natural processes on the structures, engineers are able to design new construction methods and to protect the existing structures from natural disturbances.
Ocean spectrometers also play an important role in environmental monitoring. They are used in oil spill control and spill response, which is an important tool for ecological management and marine ecosystem research. Chemical spills occur periodically in many areas of the world. Environmental monitoring is essential to prevent environmental pollution and to reduce the potential damage caused by such spills.
There are many other uses of ocean optics, especially with the development of miniature spectrometers. Other applications include nondestructive testing, chemical analysis, and nondestructive testing (NDT). Nondestructive testing (NDT) involves testing a product or material under controlled conditions so that it is unable to cause harm to people, equipment, or natural resources. Typically, nondestructive testing procedures involve high-tech lab instruments and laboratory techniques. A specialized instrument called a fiber optic spectrometer can be used for nondestructive testing applications.