electron spin resonance Sentence Examples
- Electron spin resonance (ESR) spectroscopy, also known as electron paramagnetic resonance (EPR), explores the magnetic properties of unpaired electrons in materials.
- ESR spectroscopy relies on the interaction between the electron's magnetic moment and an externally applied magnetic field.
- When an unpaired electron is placed in a magnetic field, it can align with or against the field, leading to a splitting of its energy levels.
- The energy difference between these two levels corresponds to the resonant frequency of the electron, which can be detected using ESR spectroscopy.
- ESR spectroscopy provides insights into the electronic structure, dynamics, and interactions of unpaired electrons in various materials.
- In chemistry, ESR spectroscopy is used to study free radicals, transition metal complexes, and other paramagnetic species.
- In physics, ESR spectroscopy finds applications in the study of semiconductors, superconductors, and magnetic materials.
- ESR spectroscopy can also be used to investigate biological systems, such as enzymes, proteins, and nucleic acids, providing information about their structure and function.
- ESR spectroscopy is a versatile technique that has been widely employed in research and development across various disciplines.
- The development of advanced ESR techniques, such as pulsed ESR and high-field ESR, has further expanded the scope and capabilities of this spectroscopic method.
electron spin resonance Meaning
electron spin resonance (n)
microwave spectroscopy in which there is resonant absorption of radiation by a paramagnet
Synonyms & Antonyms of electron spin resonance
No Synonyms and anytonyms found
FAQs About the word electron spin resonance
microwave spectroscopy in which there is resonant absorption of radiation by a paramagnet
No synonyms found.
No antonyms found.
Electron spin resonance (ESR) spectroscopy, also known as electron paramagnetic resonance (EPR), explores the magnetic properties of unpaired electrons in materials.
ESR spectroscopy relies on the interaction between the electron's magnetic moment and an externally applied magnetic field.
When an unpaired electron is placed in a magnetic field, it can align with or against the field, leading to a splitting of its energy levels.
The energy difference between these two levels corresponds to the resonant frequency of the electron, which can be detected using ESR spectroscopy.