Now showing items 1-6 of 6

    • Contact imaging in the atomic force microscope using a higher order flexural mode combined with a new sensor 

      Minne, S. C.; Manalis, S. R.; Atalar, Abdullah; Quate, C. F. (A I P Publishing LLC, 1996-01)
      Using an atomic force microscope (AFM) with a silicon cantilever partially covered with a layer of zinc oxide (ZnO), we have imaged in the constant force mode by employing the ZnO as both a sensor and actuator. The cantilever ...
    • Effects of rapid thermal annealing on the structural and local atomic properties of ZnO: Ge nanocomposite thin films 

      Ceylan, A.; Rumaiz, A. K.; Caliskan, D.; Ozcan, S.; Ozbay, E.; Woicik, J. C. (A I P Publishing LLC, 2015)
      We have investigated the structural and local atomic properties of Ge nanocrystals (Ge-ncs) embedded ZnO (ZnO: Ge) thin films. The films were deposited by sequential sputtering of ZnO and Ge thin film layers on z-cut quartz ...
    • Independent parallel lithography using the atomic force microscope 

      Minne, S. C.; Manalis, S. R.; Atalar, Abdullah; Quate, C. F. (A I P Publishing LLC, 1996-05)
      Independent parallel features have been lithographically patterned with a 2×1 array of individually controlled cantilevers using an atomic force microscope. Control of the individual cantilevers was achieved with an ...
    • Interdigital cantilevers for atomic force microscopy 

      Manalis, S. R.; Minne, S. C.; Atalar, Abdullah; Quate, C. F. (A I P Publishing LLC, 1996-10)
      We present a sensor for the atomic force microscope (AFM) where a silicon cantilever is micromachined into the shape of interdigitated fingers that form a diffraction grating. When detecting a force, alternating fingers ...
    • Photonic band gaps with layer-by-layer double-etched structures 

      Biswas, R.; Özbay, E.; Ho, K. M. (A I P Publishing LLC, 1996-09-03)
      Periodic layer‐by‐layer dielectric structures with full three‐dimensional photonic band gaps have been designed and fabricated. In contrast to previous layer‐by‐layer structures the rods in each successive layer are at an ...
    • Silicon micromachined ultrasonic immersion transducers 

      Soh, H. T.; Ladabaum, I.; Atalar, Abdullah; Quate, C. F.; Khuri-Yakub, B. T. (A I P Publishing LLC, 1996-12-09)
      Broadband transmission of ultrasound in water using capacitive, micromachined transducers is reported. Transmission experiments using the same pair of devices at 4, 6, and 8 MHz with a signal‐to‐noise ratio greater than ...