Housing for shielding a sensor from a radiofrequency field and an imaging system including the same

We claim: 1. A housing for shielding a sensor in an imaging system, the housing comprising a plurality of walls forming at least a part of a cavity for accommodating the sensor of the imaging system, at least one of the plurality of walls including: a substrate; and a multi-layered structure disposed on the substrate, the multi-layered structure including a plurality of metallic layers, wherein at least one pair of adjacent layers of the plurality of metallic layers include slits, the slits of the at least one pair of adjacent layers form multiple enclosing shapes that are nested. 2. The housing of claim 1 , wherein the slits of the at least one pair of adjacent layers are staggered. 3. The housing of claim 1 , wherein the slits of the at least one pair of adjacent layers include: a plurality of first slits each of which extends along a first direction, and a plurality of second slits each of which extends along a second direction, wherein: the first direction and the second direction are different, the plurality of the second slits are set on either side of the first direction of the plurality of first slits, and two of the plurality of second slits and two of the plurality first slits together form an enclosing shape, or a portion thereof. 4. The housing of claim 1 , wherein the multi-layered structure further includes an electric insulation layer between the at least one pair of adjacent layers. 5. The housing of claim 1 , wherein the substrate includes carbon fibers. 6. The housing of claim 1 , wherein the plurality of metallic layers include at least one material of gold, silver, copper, or aluminum. 7. The housing of claim 1 , wherein the multi-layered structure further includes a protection layer disposed on an outermost layer of the plurality of metallic layers. 8. The housing of claim 1 , wherein: the sensor is a positron emission tomography (PET) detector; the imaging system is a multi-modality imaging system; and the housing further includes a mounting structure configured to mount the housing on the multi-modality imaging system. 9. A magnetic resonance (MR)-positron emission tomography (PET) imaging system, comprising: a magnet assembly configured to generate a static magnetic field, wherein the magnet assembly forms a first hollow cylinder providing a first inner space; a radio frequency (RF) coil assembly configured to generate an RF field for MR imaging; a supporting component inside the first inner space; and a plurality of PET detection modules supported on the supporting component, each of the plurality of PET detection modules including: at least one PET detection unit; and a housing configured to shield the at least one PET detection unit from the RF field, wherein the housing includes a plurality of walls forming at least a part of a cavity for accommodating the at least one PET detection unit, and at least one of the plurality of wall includes: a substrate; and a multi-layered structure disposed on the substrate, the multi-layered structure including a plurality of metallic layers, the slits of the at least one pair of adjacent layers forming multiple enclosing shapes that are nested. 10. The MR-PET imaging system of claim 9 , wherein: the supporting component forms a second hollow cylinder providing a second inner space; the plurality of PET detection modules are mounted on an outer surface of the second hollow cylinder; and the RF coil assembly is disposed in the second inner space. 11. The MR-PET imaging system of claim 9 , wherein the slits of the at least one pair of adjacent layers are staggered. 12. The MR-PET imaging system of claim 9 , wherein the slits of the at least one pair of adjacent layers include: a plurality of first slits each of which extends along a first direction, and a plurality of second slits each of which extends along a second direction, wherein: the first direction and the second direction are different, the plurality of the second slits are set on either side of the first direction of the plurality of first slits, and two of the plurality of second slits and two of the plurality first slits together form an enclosing shape, or a portion thereof. 13. The MR-PET imaging system of claim 9 , wherein the multi-layered structure further includes an electric insulation layer between the at least one pair of adjacent layers. 14. The MR-PET imaging system of claim 9 , wherein the substrate includes carbon fibers. 15. The MR-PET imaging system of claim 9 , wherein the plurality of metallic layers include at least one material of gold, silver, copper, or aluminum. 16. The MR-PET imaging system of claim 9 , wherein the multi-layered structure further includes a protection layer disposed on an outermost layer of the plurality of metallic layers. 17. A method for manufacturing a housing for shielding a sensor, the housing comprising a plurality of slit walls forming at least a part of a cavity for accommodating the sensor, wherein the method comprising: for each of the plurality of slit walls: providing a substrate of the slit wall; and forming a multi-layered structure on the substrate, the multi-layered structure including a plurality of metallic layers, wherein at least one pair of adjacent layers of the plurality of metallic layers include slits, the slits of the at least one pair of adjacent layers are staggered, the slits of the at least one pair of adjacent layers form multiple enclosing shapes that are nested. 18. The method of claim 17 , wherein the slits of the at least one pair of adjacent layers include: a plurality of first slits each of which extends along a first direction, and a plurality of second slits each of which extends along a second direction, wherein: the first direction and the second direction are different, the plurality of the second slits are set on either side of the first direction of the plurality of first slits, and two of the plurality of second slits and two of the plurality first slits together form an enclosing shape, or a portion thereof. 19. The method of claim 17 , wherein the forming a multi-layered structure includes: disposing a first metallic layer on the substrate; forming a first plurality of slits on the first metallic layer; disposing a first electric insulation layer on the first metallic layer; disposing a second metallic layer on the first electric insulation layer; and forming a second plurality of slits on the second metallic layer. 20. The method of claim 19 , wherein the forming a multi-layered structure further includes: disposing a second electric insulation layer on the second metallic layer; disposing a third metallic layer on the second electric insulation layer; and forming a third plurality of slits on the third metallic layer, the third plurality of slits and the second plurality of slits being staggered.