Now showing items 1-6 of 6

    • LoC sensor array platform for real-time coagulation measurements 

      Cakmak, O.; Kilinc, N.; Ermek, E.; Mostafazadeh, A.; Elbuken, C.; Yaralioglu, G. G.; Urey, H. (Institute of Electrical and Electronics Engineers, 2014)
      This paper reports a MEMS-based sensor array enabling multiple clot-time tests in one disposable microfluidic cartridge using plasma. The versatile LoC (Lab-on-Chip) platform technology is demonstrated here for real-time ...
    • Metamaterial-based wireless RF-MEMS strain sensors 

      Melik, R.; Unal, E.; Perkgoz, N.K.; Puttlitz, C.; Demir, H. V. (2010)
      Approximately 10% of the fractures do not heal properly because of the inability to monitor fracture healing. Standard radiography is not capable of discriminating whether bone healing is occurring normally or aberrantly. ...
    • Micromachining with square-Shaped 1 ns-Long pulses from an all-Fiber Yb-Doped laser-Amplifier system 

      Özgören, K.; Öktem, B.; Ömer Ilday F.; Pasin, E.; Eken, K. (2011)
      We demonstrate micromachining with 1ns-long pulses from an all-fiber laser. Fiber lasers generating uncompressible long pulses have been ignored as undesired operational modes, however their robust, low-repetition-rate ...
    • Modeling and cross coupling controller development for a 6DOF laser micro-machining system 

      Kerimoglu S.; Cakmakci M. (Institute of Electrical and Electronics Engineers Inc., 2017)
      In recent years, studies on manufacturing systems have proved the importance of cooperation of positioning systems with laser cutting technology. The performance of the manufacturing system can be improved by utilizing ...
    • Nanoelectromechanical switches for reconfigurable antennas 

      Cetiner, B.A.; Biyikli, N.; Yildirim, B.S.; Damgaci, Y. (2010)
      We report on the full-wave analyses of a frequency reconfigurable antenna integrated with metallic nanoelectromechanical system (NEMS) switches (length = 3 μm, width = 60 nm). The NEMS switch used in this work has the same ...
    • Ultrafast micromachining of Cu and Si at ultra-high repetition rates with pulse bursts 

      Kerse C.; Kalaycioglu H.; Elahi P.; Yavuz K.; Mirza I.; Bulgakova N.M.; Ilday F.O. (Institute of Electrical and Electronics Engineers Inc., 2016)
      We report a novel ultrafast burst mode fiber laser system, which can deliver pulses at ultra-high repetition rates in order to systematically investigate micromachining efficiency on copper and silicon samples. © 2015 IEEE.