High-frequency ESR Measurement at 315 GHz Using a Microcantilever

High-frequency ESR technique using a microcantilever is reported. In our technique, an electromagnetic wave is irradiated at a sample-mounted cantilever via oversized waveguide, and ESR absorption is mechanically detected as a change of magnetic torque of the sample. The estimated spin sensitivity w...

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Published in	Journal of low temperature physics Vol. 159; no. 1-2; pp. 276 - 279
Main Authors	Ohmichi, E., Mizuno, N., Hirano, S., Ohta, H.
Format	Journal Article
Language	English
Published	Boston Springer US 01.04.2010
Subjects	Characterization and Evaluation of Materials Condensed Matter Physics Electromagnetic waves Irradiation Low temperature physics Magnetic Materials Magnetism Physics Physics and Astronomy Torque Waveguides Cantilever Electron spin resonance
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Abstract	High-frequency ESR technique using a microcantilever is reported. In our technique, an electromagnetic wave is irradiated at a sample-mounted cantilever via oversized waveguide, and ESR absorption is mechanically detected as a change of magnetic torque of the sample. The estimated spin sensitivity was 10 9 spins/G at 80 GHz. We also demonstrate multi-frequency ESR measurement of a µm-size sample at 315 GHz by cantilever detection.
AbstractList	High-frequency ESR technique using a microcantilever is reported. In our technique, an electromagnetic wave is irradiated at a sample-mounted cantilever via oversized waveguide, and ESR absorption is mechanically detected as a change of magnetic torque of the sample. The estimated spin sensitivity was 109 spins/G at 80 GHz. We also demonstrate multi-frequency ESR measurement of a ?m-size sample at 315 GHz by cantilever detection. High-frequency ESR technique using a microcantilever is reported. In our technique, an electromagnetic wave is irradiated at a sample-mounted cantilever via oversized waveguide, and ESR absorption is mechanically detected as a change of magnetic torque of the sample. The estimated spin sensitivity was 10 9 spins/G at 80 GHz. We also demonstrate multi-frequency ESR measurement of a µm-size sample at 315 GHz by cantilever detection.
Author	Ohmichi, E. Hirano, S. Ohta, H. Mizuno, N.
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References	OhmichiE.MizunoN.KimataM.OhtaH.Rev. Sci. Instrum.20087910.1063/1.29888342008RScI...79j3903O OhmichiE.MizunoN.KimataM.OhtaH.OsadaT.Rev. Sci. Instrum.20098010.1063/1.30692872009RScI...80a3904O OhtaH.OkuboS.KawakamiK.FukuokaD.InagakiY.KunimotoT.HiroiZ.J. Phys. Soc. Jpn. Suppl. B20037226 BlokH.DisselhorstJ.A.J.M.OrlinskiiS.B.SchmidtJ.J. Magn. Reson.20041669210.1016/j.jmr.2003.10.0112004JMagR.166...92B OhmichiE.OsadaT.Rev. Sci. Instrum.200273302210.1063/1.14919992002RScI...73.3022O van TolJ.BrunelL.-C.WyldeR.J.Rev. Sci. Instrum.20057610.1063/1.19425332005RScI...76g4101V MargulisT.N.TempletonD.H.Z. Krystallogr.196211734410.1524/zkri.1962.117.5-6.344 T.N. Margulis (133_CR5) 1962; 117 H. Blok (133_CR6) 2004; 166 E. Ohmichi (133_CR3) 2009; 80 H. Ohta (133_CR1) 2003; 72 E. Ohmichi (133_CR4) 2002; 73 J. Tol van (133_CR7) 2005; 76 E. Ohmichi (133_CR2) 2008; 79
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SubjectTerms	Characterization and Evaluation of Materials Condensed Matter Physics Electromagnetic waves Irradiation Low temperature physics Magnetic Materials Magnetism Physics Physics and Astronomy Torque Waveguides
Title	High-frequency ESR Measurement at 315 GHz Using a Microcantilever
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