phosphoroscope (Meaning)
phosphoroscope (n.)
An apparatus for observing the phosphorescence produced in different bodies by the action of light, and for measuring its duration.
Synonyms & Antonyms of phosphoroscope
No Synonyms and anytonyms found
phosphoroscope Sentence Examples
- The phosphoroscope, an instrument that measures the duration of phosphorescence, revealed the remarkable persistence of light emission in certain materials.
- Scientists utilized the phosphoroscope to probe the molecular dynamics underlying the energy transfer processes in luminous substances.
- The phosphoroscope facilitated detailed investigations of phosphorescence decay times, providing insights into the excited state properties of materials.
- By varying the temperature and excitation wavelength, researchers employed the phosphoroscope to unravel the temperature dependence of phosphorescence mechanisms.
- Phosphoroscope measurements helped identify the different types of phosphorescence observed in inorganic and organic compounds.
- The phosphoroscope proved to be an indispensable tool in the development of new luminescent materials with enhanced performance.
- Through the use of the phosphoroscope, scientists were able to differentiate between phosphorescence and fluorescence, clarifying the distinct emissive phenomena.
- The phosphoroscope allowed for precise quantification of phosphorescence lifetimes, enabling researchers to study the kinetics of light emission processes.
- Researchers exploited the phosphoroscope to optimize the efficiency and durability of phosphorescent materials for practical applications.
- The phosphoroscope revolutionized the field of luminescence research, fostering a comprehensive understanding of the complex behavior of light-emitting materials.
FAQs About the word phosphoroscope
An apparatus for observing the phosphorescence produced in different bodies by the action of light, and for measuring its duration.
No synonyms found.
No antonyms found.
The phosphoroscope, an instrument that measures the duration of phosphorescence, revealed the remarkable persistence of light emission in certain materials.
Scientists utilized the phosphoroscope to probe the molecular dynamics underlying the energy transfer processes in luminous substances.
The phosphoroscope facilitated detailed investigations of phosphorescence decay times, providing insights into the excited state properties of materials.
By varying the temperature and excitation wavelength, researchers employed the phosphoroscope to unravel the temperature dependence of phosphorescence mechanisms.
