Patent ID: 7400144
Filing Date: 2008-07-15
Classification: B82Y,G01Q

Abstract:
1. A magnetic resonance force microscope for performing magnetic resonance force imaging of a sample, said microscope comprising: (A) a cantilever having a probe at its tip and acting to detect a displacement distance based on an interaction produced between the probe and a local portion of the sample; (B) a scanner for scanning the sample relative to the probe of the cantilever, the sample being placed on the scanner; (C) a cantilever displacement-measuring portion for converting the displacement distance of the cantilever into an electrical signal; (D) a cantilever self-excitation loop portion for self-exciting the cantilever according to an output signal from the cantilever displacement-measuring portion; (E) an RF magnetic field-producing portion for producing a homogeneous RF magnetic field over the whole of the sample scanned relative to the probe by the scanner; (F) an RF signal source for causing the RF magnetic field-producing portion to produce an RF signal having a frequency adapted to excite magnetic resonance in the sample present in the magnetic field and to modulate the RF signal periodically; (G) a modulation signal source for supplying the periodically modulated signal to the RF signal source; (H) a frequency demodulation portion for (i) controlling spins in the sample to produce a magnetic resonance force while the cantilever self-excitation loop portion is self-exciting the cantilever in the RF magnetic field produced uniformly over the whole of the sample by the RF magnetic field-producing portion in response to the periodically modulated RF signal that is produced by the RF signal source based on the periodically modulated signal supplied from the modulation signal source, (ii) measuring the resonant frequency of the cantilever from the output signal from the cantilever displacement-measuring portion based on a gradient of the magnetic resonance force; and (iii) measuring a shift of the resonant frequency of the cantilever; (I) an atomic force imaging portion for controlling the scanner such that a DC component of the amount of shift of the resonant frequency of the cantilever is kept constant to adjust the distance from the surface of the sample to the tip of the probe and to create an atomic force microscope image of the sample; and (J) a magnetic resonance force imaging portion for creating a magnetic resonance force microscope image according to an AC component of the amount of shift of the resonant frequency of the cantilever in the frequency demodulation portion.