Radiation pressure excitation of low temperature atomic force magnetic force microscope LT AFM MFM for imaging

Karcı, Özgür
Çelik, Ümit
Uysallı, Yiğit
Özer, Hakan Özgür
Oral, Ahmet


Radiation pressure excitation of Low Temperature Atomic Force Magnetic Force Microscope LT AFM MFM in 4 300K Temperature Range
Karcı, Özgür; Çelik, Ümit; Uysallı, Yiğit; Özer, Hakan Özgür; Oral, Ahmet (2015-10-01)
Radiation pressure excitation of a low temperature atomic force/magnetic force microscope for imaging in 4-300 K temperature range
Celik, Umit L; KARCI, Ozgur; UYSALLI, Yigit; Özer, Hakkı Tunçay; Oral, Ahmet (2017-01-01)
We describe a novel radiation pressure based cantilever excitation method for imaging in dynamic mode atomic force microscopy (AFM) for the first time. Piezo-excitation is the most common method for cantilever excitation, however it may cause spurious resonance peaks. Therefore, the direct excitation of the cantilever plays a crucial role in AFM imaging. A fiber optic interferometer with a 1310 nm laser was used both for the excitation of the cantilever at the resonance and the deflection measurement of the...
Radiation Damage Studies for Fe-Based Alloys Under 30 MeV Proton Irradiation
Uslu, Pelin; Akdeniz, Mahmut Vedat; Mehrabov, Amdulla; Demirköz, Melahat Bilge (2019-10-07)
Materials should be radiation resistant for safe and reliable operation in radiation environments. Therefore, radiation tests are crucial for new candidate materials. Proton tests are critical for materials intended for use in nuclear reactors that produce hydrogen and hydrogen isotope ions and in the space environment that consists mostly of protons. Generally, crystalline materials are used in nuclear reactors and in space for their mechanical rob...
Radiation chemistry of aqueous solutions of 1,2-Dichloroethane.
Aygün, Sezer; Department of Chemistry (1980)
Radiation impedance study of a capacitive micromachined ultrasonic transducer by finite element analysis
Bayram, Barış (2015-08-01)
In this study, radiation impedance of a capacitive micromachined ultrasonic transducer composed of square-shaped membranes arranged in m x m configuration (m = 1 - 5) is investigated using finite element analysis (FEA) of a commercially available software package (ANSYS). Radiation impedance is calculated for immersed membranes operating in conventional and collapse modes. Individual membrane response within the multi-membrane configuration is analyzed, and excited modes and their effects on radiation imped...
Citation Formats
Ö. Karcı, Ü. Çelik, Y. Uysallı, H. Ö. Özer, and A. Oral, “Radiation pressure excitation of low temperature atomic force magnetic force microscope LT AFM MFM for imaging,” 2015, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/76727.