Device for receiving and/or emitting a wave, a system comprising the device, and use of such device

The invention claimed is: 1. A device for receiving and/or emitting an electromagnetic wave having a free space wavelength λ 0 between 1 mm and 10 m, the device comprising: a medium of dielectric material, in which the free space wavelength λ 0 corresponds to a wavelength λ inside the dielectric medium; a plurality of passive resonant elements incorporated inside the dielectric medium, each of the plurality of passive resonant elements having a first structure defined by at least a first shape and first physical parameters, and each of the plurality of passive resonant elements having at least a first resonance frequency (f 1 ) and comprising a frequency band-gap (Δf), in which two neighbour passive resonant elements are spaced apart from each other by a first distance (d 1 ) lower than λ/4; and at least one active resonant element incorporated inside the plurality of passive resonant elements, the active resonant element being spaced apart from a passive resonant element by a second distance (d 2 ) lower than λ/4, the active resonant element having a second structure defined by at least a second shape and second physical parameters, the second structure being different from the first structure so that the active resonant element has at least a second resonance frequency (f 2 ) comprised inside the frequency band-gap (Δf) of the plurality of passive resonant elements, wherein, the active resonant element is connected to an electronic device for receiving or emitting a signal (S) having at least a frequency component substantially equal to the second frequency (f 2 ), wherein the active resonant element is in proximity of a lateral surface (LS) of the medium. 2. The device according to claim 1 , wherein the second shape is identical to said first shape, and at least one of the second physical parameters of the second structure is different to a corresponding first physical parameter of the first structure. 3. The device according to claim 1 , wherein the first and second physical parameters comprise sizes and materials of the first and second structure, respectively. 4. The device according to claim 1 , wherein the first distance and the second distance are lower than λ/10. 5. The device according to claim 1 , wherein the passive resonant elements are not periodically disposed inside the medium. 6. The device according to claim 1 , wherein said active resonant element is at a third distance (d 3 ) from the lateral surface (LS), said third distance (d 3 ) being lower than the wavelength λ . 7. The device according to claim 1 , comprising at least two active resonant elements, said two active resonant elements being separated from each other of a forth distance (d 4 ), and wherein said two active resonant elements have different second resonance frequencies (f 21 , f 22 ), each of them being comprised inside said band-gap (Δf). 8. The device according to claim 7 , wherein the forth distance (d 4 ) is lower than the wavelength λ , and preferably lower than λ/4. 9. The device according to claim 7 , wherein the forth distance (d 4 ) is adapted so that at least one passive resonant element ( 12 ) is substantially between said two active resonant elements. 10. The device according to claim 7 , wherein the two active resonant elements are positioned symmetrically in comparison to a geometrical centre of said device. 11. The device according to claim 1 , comprising: the plurality of passive resonant elements having the same first shapes and same first physical parameters, each passive resonant elements having a plurality of first resonance frequencies (f i ), and the plurality of passive resonant elements comprising at least a first band-gaps (Δf 1 ) and a second band-gap (Δ 2 ), and at least two active resonant elements, said to active resonant elements being separated from each other of a forth distance (d 4 ), and wherein said two active resonant elements have different second resonance frequencies (f 21 , f 22 ) respectively, the first second resonance (f 21 ) being comprised inside a first band-gap (Δf 1 ) of said plurality of passive resonant elements, and the second second resonance (f 22 ) being comprised inside a second band-gap (Δf 2 ) of said plurality of passive resonant elements. 12. The device according to claim 1 , comprising: at least two sets of passive resonant elements, said sets having the same first shapes and different first physical parameters, so that a first set comprises a first band-gap (Δf 1 ) and a second set comprises a second band-gap (Δf 2 ), and at least two active resonant elements, said to active resonant elements being separated from each other of a forth distance (d 4 ), and wherein said two active resonant elements have different second resonance frequencies (f 21 , f 22 ) respectively, the first second resonance (f 2 ) being comprised inside the first band-gap (Δf 1 ), and the second second resonance (f 22 ) being comprised inside the second band-gap (Δf 2 ). 13. The device according to claim 1 , wherein the first and second shapes are wires of electrical conductors, the first resonance frequency (f 1 ) depending on a length of said first shape, and the second resonance frequency (f 2 ) depending on a length of said second shape. 14. A device for receiving and/or emitting an electromagnetic wave having a free space wavelength λ 0 between 1 mm and 10 m, the device comprising: a medium of dielectric material, in which the free space wavelength λ 0 corresponds to a wavelength λ inside the dielectric medium; a plurality of passive resonant elements incorporated inside the dielectric medium, each of the plurality of passive resonant elements having a first structure defined by at least a first shape and first physical parameters, and each of the plurality of passive resonant elements having at least a first resonance frequency f 1 and comprising a frequency band-gap (Δf), in which two neighbour passive resonant elements are spaced apart from each other by a first distance (d 1 ) lower than λ/4; and at least one active resonant element incorporated inside the plurality of passive resonant elements, the active resonant element being spaced apart from a passive resonant element by a second distance (d 2 ) lower than λ/4, the active resonant element having a second structure defined by at least a second shape and second physical parameters, the second structure being different from the first structure so that the active resonant element has at least a second resonance frequency f 2 comprised inside the frequency band-gap (Δf) of the plurality of passive resonant elements, wherein, the active resonant element is connected to an electronic device for receiving or emitting a signal (S) having at least a frequency component substantially equal to the second frequency (f 2 ) and wherein the first and second shapes are split rings of electrical conductors, the first resonance frequency (f 1 ) depending on an electric capacitor and an electric inductance of said first shape, and the second resonance frequency (f 2 ) depending on an electric capacitor and an electric inductance of said second shape. 15. A device for receiving and/or emitting an electromagnetic wave having a free space wavelength λ 0 between 1 mm and 10 m, the device comprising: a medium of dielectric material, in which the free space wavelength λ 0 corresponds to a wavelength λ inside the dielectric medium; a plurality of passive resonant elements incorporated inside the dielectric medium, each of the plurality of passive resonant elements having a first structure defined by at least a first shape and first physical parameters