Title :
ESR spectroscopy employing YIG-Tuned Oscillator in conjunction with low-quality factor resonators
Author :
Shtirberg, Lazar ; Shklyar, Michael ; Blank, Aharon
Author_Institution :
Schulich Fac. of Chem., Technion - Israel Inst. of Technol., Haifa, Israel
Abstract :
Electron spin resonance (ESR) is a very useful and robust microwave spectroscopic method with many applications in science and technology. Common microwave sources used in ESR spectroscopy, such as klystrons or Gunn diodes have small bandwidth of ~1GHz (at 10 GHz) and need to be locked on high-Q cavity (Q>;1000) to achieve low phase noise at 100 kHz offset. Here we developed an experimental system with YIG-Tuned Oscillator, which can be used for ESR spectroscopy in the entire range of 8-18GHz and can be locked on relatively low Q resonators (Q>;200). The hysteresis of YIG-Tuned Oscillator does not affects its performance and even at the low Q values one obtains tracking error of the resonator frequency that are ~10-100 kHz.
Keywords :
EPR spectroscopy; Q-factor; laser cavity resonators; laser mode locking; laser noise; laser tuning; microwave photonics; oscillators; phase noise; yttrium compounds; ESR spectroscopy; Gunn diodes; YIG; YIG-tuned oscillator; electron spin resonance; frequency 10 kHz to 100 kHz; frequency 8 GHz to 18 GHz; high-Q cavity; hysteresis; klystrons; low-quality factor resonators; microwave sources; phase noise; resonator frequency; robust microwave spectroscopic method; tracking error; Coils; Frequency control; Frequency modulation; Microwave oscillators; Microwave theory and techniques; Resonant frequency;
Conference_Titel :
Microwave and Telecommunication Technology (CriMiCo), 2012 22nd International Crimean Conference
Conference_Location :
Sevastopol, Crimea
Print_ISBN :
978-1-4673-1199-1
