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Piezoelectric disk resonators are designed to transduce specific contour mode bulk acoustic wave (BAW) resonant shapes. Utilizing a unique property of lead magnesium niobite-lead titanate (PMN-PT) thin films, microfabricated disk resonators are characterized using laser Doppler vibrometry. PMN-PT is a ferroelectric material that is known for its piezoelectric and electrostrictive properties.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_03c6c43f53.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_03c6c43f53.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_28f7b9110b.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_28f7b9110b.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_d692e8cb5f.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_d692e8cb5f.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_dedaa87359.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_dedaa87359.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/9\/csm_piezo-materials-and-wine-glasses_03c6c43f53.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/what-you-always-wanted-to-know-about-piezo-materials-and-wine-glasses","origUid":7474,"readingTime":"4 min","subline":"What you always wanted to know about piezo materials and wine glasses","tags":[{"title":"Electronics, semicon, solar","uid":5},{"title":"General R&D","uid":6},{"title":"Materials research & NDT","uid":9},{"title":"Micro & nanotechnology","uid":10}],"technologies":[{"title":"Vibrometry","uid":214}],"title":"Single electrode transduction of contour modes in piezoelectric disk resonators","uid":7476,"visits":57},{"authors":[],"datetime":null,"description":"

Atomic Force Microscopy (AFM) is a powerful and versatile nanoscale imaging technique that has revolutionized our understanding of surfaces and materials at the atomic and molecular scale. By enabling high-resolution imaging, force measurement, and manipulation of materials on the nanometer scale ...<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_4723c810ff.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_4723c810ff.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_ac40ab27f2.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_ac40ab27f2.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_0bc802a43d.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_0bc802a43d.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_64445453a6.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_64445453a6.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/8\/f\/csm_interferometric-piezoresponse-force-microscopy-afm_4723c810ff.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/ldv-based-displacement-sensor-afm-enables-more-quantitative-measurements","origUid":7409,"readingTime":"8 min","subline":"Interferometric piezoresponse force microscopy: accurate and repeatable","tags":[{"title":"Materials research & NDT","uid":9},{"title":"Micro & nanotechnology","uid":10}],"technologies":[{"title":"Vibrometry","uid":214}],"title":"LDV based displacement sensor AFM enables more quantitative measurements","uid":7412,"visits":105},{"authors":[],"datetime":null,"description":"

Surface acoustic wave (SAW)-based acoustofluidics combines microfluidics with active microacoustic fields. This allows to realize numerous Lab-on-a-Chip operations, reaching from fluid manipulation including mixing, droplet and aerosol generation to the manipulation of cells and (bio-)particles.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_53fee87577.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_53fee87577.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_410638478d.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_410638478d.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_de81645b7e.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_de81645b7e.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_abf7034eec.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_abf7034eec.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/f\/1\/csm_blood-cell-sorting_53fee87577.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/manipulation-of-complex-fluids-with-saw-based-acoustofluidics","origUid":6758,"readingTime":"3 min","subline":"Sample preparation for biomedicine","tags":[{"title":"Micro & nanotechnology","uid":10},{"title":"Acoustics & ultrasonics","uid":2},{"title":"General R&D","uid":6},{"title":"Biology & medical","uid":4}],"technologies":[{"title":"Vibrometry","uid":214}],"title":"Manipulation of complex fluids with SAW-based acoustofluidics","uid":6762,"visits":356},{"authors":[],"datetime":null,"description":"

Acoustofluidics is the active manipulation of fluids as well as of immersed particles or cells at the micro- and nanoscale and is a key technology for life sciences. Acoustic waves, more precisely, ultrasonic waves featuring high frequencies far beyond the audible range, are predestined for this purpose...<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_652d0cda70.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_652d0cda70.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_a5a8957241.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_a5a8957241.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_862594918f.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_862594918f.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_fe919df53e.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_fe919df53e.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/0\/7\/csm_surface-acoustic-wave-devices_652d0cda70.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/selective-polarization-conversion-of-surface-acoustic-waves","origUid":6724,"readingTime":"5 min","subline":"Selective polarization conversion of surface acoustic waves","tags":[{"title":"Micro & nanotechnology","uid":10},{"title":"Acoustics & ultrasonics","uid":2},{"title":"General R&D","uid":6}],"technologies":[{"title":"Vibrometry","uid":214}],"title":"A new driving mechanism for acoustofluidics*","uid":6726,"visits":485},{"authors":[],"datetime":null,"description":"

The excitation of a multi-cantilever MEMS structure by molecular Brownian motion is investigated by ultra-high resolution optical vibrometry. This novel approach to testing enables applications such as the calibration of AFM tips.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_e7de4b8315.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_e7de4b8315.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/exciting-vibration.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/magazine\/vibrometry\/image\/exciting-vibration.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_88f77136fb.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_88f77136fb.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_dca79a384d.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_dca79a384d.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/d\/e\/csm_exciting-vibration_e7de4b8315.jpg","alt":"","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/precision-vibrometry-on-a-self-excited-multi-cantilever-mems-structure","origUid":6395,"readingTime":"4 min","subline":"Exciting vibration","tags":[{"title":"Micro & nanotechnology","uid":10}],"technologies":[{"title":"Vibrometry","uid":214}],"title":"Precision vibrometry on a self-excited, multi-cantilever MEMS structure","uid":6450,"visits":477},{"authors":[],"datetime":null,"description":"

For applications where tactile surface measurement techniques have shortcomings, non-contact optical instruments have been developed to overcome these shortcomings. Especially with the development of computing capability, these methods provide surface information quickly and with high resolution.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_7e09930fef.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_7e09930fef.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_dc6fa2e482.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_dc6fa2e482.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_0c877c09da.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_0c877c09da.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_955f815537.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_955f815537.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/b\/6\/csm_precision-surfaces_7e09930fef.jpg","alt":"precision surfaces","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/overview-of-optical-methods-for-surface-metrology","origUid":6326,"readingTime":"5 min","subline":"Have a closer look on precision surfaces","tags":[{"title":"Electronics, semicon, solar","uid":5},{"title":"Mechanical & precision engineering","uid":8},{"title":"Micro & nanotechnology","uid":10}],"technologies":[{"title":"Surface Metrology","uid":212}],"title":"Overview of optical methods for surface metrology","uid":6466,"visits":562},{"authors":[],"datetime":null,"description":"

Next generation ultrasound imaging research is focused on a new sensor technology which utilizes large arrays of small membrane sensors. Accurate performance from these sensors can enable a new suite of medical imaging applications, allowing doctors to more rapidly test and diagnose their patients.<\/p>","imageObject":{"variants":[{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_0f4d0f8c86.jpg.webp","type":"image\/webp","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_0f4d0f8c86.jpg","name":"default","width":"570","breakpoint":"1200"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_5ae0f8b4c1.jpg.webp","type":"image\/webp","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_5ae0f8b4c1.jpg","name":"large","width":"900","breakpoint":"992"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_70bbcc43c6.jpg.webp","type":"image\/webp","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_70bbcc43c6.jpg","name":"medium","width":"1380","breakpoint":"768"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_1ecd14bbe3.jpg.webp","type":"image\/webp","name":"extrasmall","width":"640","breakpoint":"320"},{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_1ecd14bbe3.jpg","name":"extrasmall","width":"640","breakpoint":"320"}],"default":{"src":"https:\/\/magazine.polytec.com\/fileadmin\/_processed_\/1\/d\/csm_cmut-ultrasound_0f4d0f8c86.jpg","alt":"cmut ultrasound","title":""}},"link":"https:\/\/magazine.polytec.com\/uk\/non-destructive-measurements-for-determining-the-performance-of-a-cmut-ultrasound-transducer","origUid":6321,"readingTime":"4 min","subline":"Diagnosis in a breath","tags":[{"title":"Micro & nanotechnology","uid":10}],"technologies":[{"title":"Vibrometry","uid":214}],"title":"Non-destructive measurements for determining the performance of a CMUT ultrasound transducer","uid":6464,"visits":467},{"authors":[],"datetime":null,"description":"

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