PhD Development of Quantitative Depth-sensitive Subsurface Nanoimaging

Eindhoven University of Technology, Netherlands is inviting excellent candidates to apply for a PhD position in mechanical engineering. Applications will be evaluated immediately.

TU/e is looking for a PhD Development of Quantitative, Depth-Sensitive Subsurface Nanoimaging (V35.4238) at the Department Mechanical Engineering, Dynamics & Control.

This PhD project focusses on the development of a subsurface nanoimaging technique with the capability of depth sensing and determining the height of a buried object under several layers. The research will be performed based on the already developed subsurface nano-imaging technique so-called Subsurface Ultrasound Resonance Force Microscopy (SSURFM). The current SSURFM enables nondestructive imaging of buried structures with nanometer resolution. However, in the current stage of the development there are two limitations; 1) the results are not quantitative and 2) it is a 2D imaging method without sensitivity to depth. Several applications (e.g. Semiconductor and bio) require quantitative results and information on the depth and height of the buried structures.

SSURFM uses a high-frequency ultrasound wave at a frequency that is typically a few tens of MHz to few GHzfar above the contact resonance. This wave has a sinusoidal amplitudemodulationapplied at a frequency equal to or close to the cantilever's contact resonance frequency. The cantilever's response is measured at thismodulation frequency.At very high frequencies (typically few GHz) where the wavelength is in the same order of magnitude of the size of the buried feature, besides the local elasticity effect there is also wave scattering due to the subsurface features. The cantilever acts as a very sensitive detector, that can detect the scattered wave and map the buried subsurface features.

The primary objective of this research is to further develop the SSURFM with the capabilities of quantitative measurement and having depth sensitivity. Following the modeling part, an experimental demonstration (Proof of principle) will be developed to proof quantitative measurement and depth sensitivity of the newly developed method.

In the project, collaboration with companies will exist, which all offer their expertise to aid the project.

The applicant should have excellent analytical, experimental and communication skills and hold a university degree (MSc) in mechanical engineering, electrical engineering, Physics or similar. A strong interest in dynamics, control, Instrumentation, interactions at small-scales and ultrasound wave and is required. Experience with practical implementation is preferred.

More information about this PhD position can be obtained for Dr. Hamed Sadeghian (

Application documents (in PDF format) must contain: letter of motivation, detailed curriculum vitae including photograph, transcripts of BSc and MSc degrees.


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