QPlus: atomic force microscopy on single-crystal insulators with small oscillation amplitudes at 5 K

Based on a proven low temperature scanning tunneling microscope (STM) platform, we have integrated a QPlus sensor, which employs a quartz tuning fork for force detection in non-contact atomic force microscopy (AFM). For combined STM operation, this sensor has key advantages over conventional sensors...

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Veröffentlicht in:	Nanotechnology 2009-07, Vol.20 (26), p.264009-264009p6
Hauptverfasser:	Bettac, Andreas, Koeble, Juergen, Winkler, Konrad, Uder, Bernd, Maier, Markus, Feltz, Albrecht
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container_end_page	264009p6
container_issue	26
container_start_page	264009
container_title	Nanotechnology
container_volume	20
creator	Bettac, Andreas Koeble, Juergen Winkler, Konrad Uder, Bernd Maier, Markus Feltz, Albrecht
description	Based on a proven low temperature scanning tunneling microscope (STM) platform, we have integrated a QPlus sensor, which employs a quartz tuning fork for force detection in non-contact atomic force microscopy (AFM). For combined STM operation, this sensor has key advantages over conventional sensors. For quantitative force spectroscopy on insulating thin films or semiconductors, decoupling of the tunneling current and the piezo-electrically induced AFM signal is important. In addition, extremely low signals require the first amplification stage to be very close to the sensor, i.e. to be compatible with low temperatures. We present atomic resolution imaging on single-crystal NaCl(100) with oscillation amplitudes below 100 pm (peak-to-peak) and operation at higher flexural modes in constant frequency shift (df) imaging feedback. We also present atomic resolution measurements on MgO(100) and Au(111), and first evaluation measurements of the QPlus sensor in Kelvin probe microscopy on Si(111) 7 x 7.
doi_str_mv	10.1088/0957-4484/20/26/264009
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title	QPlus: atomic force microscopy on single-crystal insulators with small oscillation amplitudes at 5 K
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