Electroacoustic device for manipulating objects in a liquid

The invention claimed is: 1 . An electroacoustic device for generating an acoustic wave, comprising: a piezoelectric substrate; first electrodes arranged on the piezoelectric substrate, each first electrode comprising first tracks; and second electrodes arranged on the piezoelectric substrate, each second electrode comprising second tracks, wherein, the first tracks spiral around a spiral axis in a first winding direction, and the second tracks spiral around the spiral axis in a second winding direction opposite to the first winding direction. 2 . The electroacoustic device of claim 1 , wherein the first electrodes each comprise a first contact brush arranged on the piezoelectric substrate and connected to corresponding first tracks. 3 . The electroacoustic device of claim 2 , each first contact brush is electrically connected to one of the second tracks. 4 . The electroacoustic device of claim 1 , wherein the second electrodes each comprise a second contact brush arranged on the piezoelectric substrate and connected to corresponding second tracks. 5 . The electroacoustic device of claim 4 the first tracks are arranged remotely from the second contact brushes. 6 . The electroacoustic device of claim 4 , wherein the second tracks extend from the second contact brushes to corresponding ones of the first tracks. 7 . The electroacoustic device of claim 3 , the wherein: one of the second tracks is partially superimposed on one of the first contact brushes; and/or one of the first tracks is partially superimposed on one of the second contact brush. 8 . The electroacoustic device of claim 1 , wherein the acoustic wave is a swirling surface acoustic wave propagating in the piezoelectric substrate. 9 . The electroacoustic device of claim 8 , further comprising a support acoustically coupled with the piezoelectric substrate, the electroacoustic device being further configured such that the swirling surface acoustic wave is transmitted to the support and propagates in the support as an acoustic vortex. 10 . The electroacoustic device of claim 1 , wherein: the acoustic wave is a focused acoustic vortex propagating in the piezoelectric substrate; or the electroacoustic device further comprises a support acoustically coupled with the piezoelectric substrate, the acoustic wave being a focused acoustic vortex that propagates in the support; or the acoustic wave is a focused acoustic vortex that propagates in a fluid medium acoustically coupled with the electroacoustic device. 11 . A process for manipulating an object embedded in a fluid medium, the process comprising: generating an acoustic vortex or a focused acoustic vortex using the electroacoustic device of claim 1 ; propagating the acoustic vortex or the focused acoustic vortex in the fluid medium to create a radiation pressure to entrap the object; and manipulating the object by displacement of the first and second electrodes relatively to the fluid medium. 12 . The process of claim 11 , wherein the manipulating the object comprises: rotating the object; and/or translating the object. 13 . A process comprising: generating an acoustic vortex or a focused acoustic vortex using the electroacoustic device of claim 1 ; and propagating the acoustic vortex or the focused acoustic vortex in a fluid medium to generate a vortical flow of the fluid medium. 14 . The process of claim 11 , wherein the generating an acoustic vortex or a focused acoustic vortex comprises electrically supplying: a first master signal to a first one of the first electrodes; a first slave signal to a second one of the first electrodes; a second master signal to a first one of the second electrodes; and a second slave signal to a second one of the second electrodes. 15 . The process of claim 14 , wherein the amplitude of the first master signal and/or of the first slave signal is different from an amplitude of the second master signal and/or of the second slave signal. 16 . The process of claim 11 , wherein: the first electrodes and the second electrodes at least partially define respective first and second wave transducers having different resonance frequencies; and the generating an acoustic vortex or a focused acoustic vortex comprises supplying master and slave electric signals adapted for exciting the first and second wave transducers with a frequency ranging between the resonance frequencies of the first and second wave transducers.