Zusammenfassung der Projektergebnisse

In summary, we have developed the Tubular Bell significantly different to the traditional approach in phononic crystal sensor literature. In this approach, a 2D phononic crystal surrounds the center of a 1D tubular phononic crystal. The Tubular Bell is more effective. The key is the excitation and readout of the radial resonant mode by addressing the acoustic field directly to the central unit cell of a tubular phononic crystal. Furthermore, this approach allows optimization of the coupling of only one piezoelectric transducer with the acoustic field in the liquid-filled pipe resonator. This approach minimizes all the considered loss mechanisms and achieves an extremely high Q-factor. All project results have been published in high-ranked physical or sensor journals. The papers provide more information on the conceptual approach, the theoretical basis, modelling procedures and experimental details.

Projektbezogene Publikationen (Auswahl)

• Design and Fabrication Challenges for Millimeter-Scale Three-Dimensional Phononic Crystals. Crystals, 7(11), 348.
  Lucklum, Frieder & Vellekoop, Michael
  
• Narrow Band Solid-Liquid Composite Arrangements: Alternative Solutions for Phononic Crystal-Based Liquid Sensors. Sensors, 19(17), 3743.
  Mukhin, Nikolay; Kutia, Mykhailo; Oseev, Aleksandr; Steinmann, Ulrike; Palis, Stefan & Lucklum, Ralf
  
• Phononic Crystal Sensors: 2D, 2.5D and 3D Designs and Realizations, Phononics 2019, Tucson, Arizona, USA
  F. Lucklum, N. Mukhin, M.J. Vellekoop, R. Lucklum
  
• Ultra-Sensitive and Broad Range Phononic-Fluidic Cavity Sensor for Determination of Mass Fractions in Aqueous Solutions. 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII) (2019, 6). American Geophysical Union (AGU).
  Lucklum, Frieder & Vellekoop, Michael J.
  
• Numerical Analysis of a Tubular Phononic Crystal Sensor. 2020 IEEE SENSORS (2020, 10, 25), 1-3. American Geophysical Union (AGU).
  Gueddida, A.; Pennec, Y.; Hemon, S.; Lucklum, F.; Vellekoop, M.; Mukhin, N.; Lucklum, R.; Bonello, B. & Rouhani, B. Djafari
  
• Enhanced sensitivity of resonant liquid sensors by phononic crystals. Journal of Applied Physics, 130(2).
  Lucklum, Ralf & Mukhin, Nikolay
  
• Periodic Tubular Structures and Phononic Crystals towards High-Q Liquid Ultrasonic Inline Sensors for Pipes. Sensors, 21(17), 5982.
  Mukhin, Nikolay & Lucklum, Ralf
  
• Phononic Crystal Sensors: A New Class of Resonant Sensors—Chances and Challenges for the Determination of Liquid Properties. Frontiers in Mechanical Engineering, 7 (2021, 7, 23).
  Lucklum, Ralf; Mukhin, Nikolay; Djafari, Rouhani Bahram & Pennec, Yan
  
• Tubular phononic crystal sensor. Journal of Applied Physics, 130(10).
  Gueddida, A.; Pennec, Y.; Zhang, V.; Lucklum, F.; Vellekoop, M.; Mukhin, N.; Lucklum, R.; Bonello, B. & Djafari, Rouhani B.
  
• Acoustic Sensor Based on a Cylindrical Resonator for Monitoring a Liquid Flow. Crystals, 12(10), 1398.
  Gueddida, Abdellatif; Pennec, Yan; Silveira, Fiates Ana Luiza; Vellekoop, Michael Johannes; Bonello, Bernard & Djafari-Rouhani, Bahram
  
• Phononic crystal for dynamic viscosity determination. Photonic and Phononic Properties of Engineered Nanostructures XII (2022, 3, 5). American Geophysical Union (AGU).
  Carpentier, Laurent; Gueddida, Abdellatif; zaremanesh, mansour; Gharibi, Hamed; Bahrami, Ali; Mehaney, Ahmed; Lucklum, Ralf; Djafari-Rouhani, Bahram & Pennec, Yan
  
• Two-Dimensional Phononic Crystal Based Sensor for Characterization of Mixtures and Heterogeneous Liquids. Sensors, 22(7), 2816.
  Mukhin, Nikolay; Kutia, Mykhailo; Aman, Alexander; Steinmann, Ulrike & Lucklum, Ralf