Electron Spin Resonance Spectrometer
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Electron Spin Resonance Spectrometer
40,000 Per Piece
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Electron Spin Resonance Spectrometer
45,000 Per Piece
1 Piece (MOQ)
Electron Spin Resonance Spectrometer
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1 Piece (MOQ)
Electron Spin Resonance Spectrometer
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Electron Spin Resonance Spectrometer In this method , use is made of the Zeeman interaction of the magnetic dipoles associated with the nucleus or the electron, when placed in an external magnetic field. Parts of the Instrument: Helmholtz coils with an attachment Sample : DP PH R.F Oscillator ( 10 MHz to 9MHz)
Electron Spin Resonance Spectrometer
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Electron Spin Resonance Spectrometer
34,500 Per Piece
02 Piece (MOQ)
Electron Spin Resonance Spectrometer
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We offer Electron Spin Resonance Spectrometer, in recent years Magnetic Resonance has developed into a very useful and powerful tool in solid state research. In this method, use is made of the Zeeman interaction of the magnetic dipoles associated with the nucleus or electron, when placed in an external magnetic field. Accordingly, they are identified as NMR (Nuclear Magnetic Resonance) or ESR (Electron Spin Resonance). This form of spectroscopy finds many applications in the investigation of crystal structures, environmental effects, dynamic effects, defects in solids and in many diverse branches of Physics, Chemistry and Biology. Features >>FET based marginal R.F. Oscillator >>Digital display of frequency >>Excellent peaks display >>Digital display of Helmoltz Coil Current >>Compatible with general purpose CRO in X-Y mode Description of the ESR Spectrometer A block diagram of the ESR Spectrometer is given below in Fig. 1, and a brief description follows. Basic Circuit The first stage of the ESR circuit consists of a critically adjusted (marginal) radio frequency oscillator with 4-digit frequency display. This type of oscillator is required here, so that the slightest increase in its load decreases the amplitude of oscillation to an appreciable extent. The sample is kept inside the tank coil of the oscillator, which in turn, is placed in the 50Hz magnetic field, generated by the Helmholtz coils. At resonance, i.e. when the frequency of oscillation equal to the Larmour�s frequency of the sample, the oscillator amplitude registeres a dip due to the absorption of power by the sample. This obviously, occurs periodically four times in each complete cycle of the supply voltage. The result is an amplitude modulated carrier which is then detected using a FET demodulator and amplified by an op-amp circuit. Highly stabilised and almost ripple free power supply for the above circuit is obtained using an integrated circuit regulator. Phase Shifter This can compensate the undermined phase difference which may be introduced in the amplification stages of the spectrometer and oscilloscope. 50Hz Sweep Unit A 50Hz current flows through Helmholtz coils which provides a low frequency magnetic field to the sample. As the resonance is observed at few gauss only, no static magnetic field is applied. Oscilloscope (not supplied with the Spectrometer) Any inexpensive oscilloscope normally available in the laboratory would be quite suitable. Advantages and Limitations of our Spectrometer >>The instrument is basically designed for postgraduate laboratories keeping in view their requirements and limitations. >>The observation of ESR at low magnetic fields and consequently in radio-frequency region makes its instrumentation and working a lot simple and within the reach of a postgraduate students. Good resonance peaks can be obtained as a class room exercise. >>The spectrometer is complete in all respects including a sample DPPH (except a CRO). The experiment is complete in all respect.
Electron Spin Resonance Spectrometer
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Electron Spin Resonance Spectrometer
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Electron Spin Resonance Spectrometer, Tungsten Halogen Lamp
