Structural slot antenna with isolating element

What is claimed is: 1. An antenna structure located on a metal casing of a computing device, the antenna structure comprising: a first open slot radiating structure radiating at a radiating wavelength and located on a face of a surface of the metal casing of the computing device; a second open slot radiating structure radiating at the radiating wavelength and located on the face of the surface of the metal casing of the computing device; and at least one closed slot radiator element located between the first open slot radiating structure and the second open slot radiating structure on the face of the surface of the metal casing of the computing device, the closed slot radiator element being approximately a multiple of half the length of the radiating wavelength and being located such that the closed slot radiator element radiates electric surface currents flowing along the metal casing of the computing device, wherein the face of the surface of the metal casing of the computing device is an edge face of the surface of the metal casing of the computing device. 2. The antenna structure of claim 1 , wherein the at least one closed slot radiator element acts as a closed slot isolator element, radiating surface current flowing between the first open slot radiating structure and the second open slot radiating structure and reducing coupling between the first open slot radiating structure and the second open slot radiating structure. 3. The antenna structure of claim 1 , wherein the at least one closed slot radiator element acts as a second band radiator element, where the at least one closed slot radiator element is electrically connected to the first open slot radiating structure and the at least one closed slot radiator element radiates at approximately half of the radiating wavelength of the first open slot radiating structure. 4. The antenna structure of claim 1 , wherein the antenna structure forms a multiple-input multiple-output (MIMO) antenna structure. 5. The antenna structure of claim 1 , wherein the first open slot radiating structure is capacitively driven by a first radiating structure and the second open slot radiating structure is capacitively driven by a second radiating structure. 6. The antenna structure of claim 1 , wherein the first open slot radiating structure is electrically driven using a first coaxial cable and the second open slot radiating structure is electrically driven using a second coaxial cable. 7. The antenna structure of claim 1 , wherein the first open slot radiating structure, the second open slot radiating structure, and the at least one closed slot radiator are filled with a dielectric material. 8. An electronic device comprising: a metal casing; a first open slot radiating structure radiating at a radiating wavelength and located on a face of a surface of the metal casing of the electronic device; a second open slot radiating structure radiating at the radiating wavelength and located on the face of the surface of the metal casing of the electronic device; and at least one closed slot radiator element located between the first open slot radiating structure and the second open slot radiating structure on the face of the surface of the metal casing of the electronic device, the closed slot radiator element being approximately a multiple of half the length of the radiating wavelength and being located such that the closed slot radiator element radiates electric surface currents flowing along the metal casing of the electronic device, wherein the first open slot radiating structure, the second open slot radiating structure, and the closed slot radiator element are formed on an edge face of the surface of the metal casing of the electronic device. 9. The electronic device of claim 8 , wherein the at least one closed slot radiator element acts as a closed slot isolator element, radiating surface current flowing between the first open slot radiating structure and the second open slot radiating structure and reducing coupling between the first open slot radiating structure and the second open slot radiating structure. 10. The electronic device of claim 8 , wherein the at least one closed slot radiator element acts as a second band radiator element, where the at least one closed slot radiator element is electrically connected to the first open slot radiating structure and the at least one closed slot radiator element radiates at approximately half of the radiating wavelength of the first open slot radiating structure. 11. The electronic device of claim 8 , wherein the first open slot radiating structure is capacitively driven by a first radiating structure and the second open slot radiating structure is capacitively driven by a second radiating structure. 12. The electronic device of claim 8 , wherein the first open slot radiating structure is electrically driven using a first coaxial cable and the second open slot radiating structure is electrically driven using a second coaxial cable. 13. A method of isolating a first open slot radiating structure on a face of a surface of a metal casing of an electronic device from a second open slot radiating structure on the face of the surface of the metal casing of the electronic device, the method comprising: providing at least one closed slot radiator element located between the first open slot radiating structure and the second open slot radiating structure on the face of the surface of the metal casing of the electronic device, the at least one closed slot radiator element being approximately a multiple of half the length of the radiating wavelength and being located such that the closed slot radiator element radiates electric surface currents flowing along the metal casing of the electronic device, wherein the face of the surface of the metal casing of the electronic device is an edge face of the surface of the metal casing of the electronic device; exciting the first open slot radiating structure, causing the first open slot radiating structure to radiate at a radiating wavelength; and exciting the second open slot radiating structure, causing the second open slot radiating structure to radiate at the radiating wavelength. 14. The method of claim 13 , wherein the first open slot radiating structure is excited directly by a first coaxial cable connected to a first radio frequency source and the second open slot radiating structure is excited directly by a second coaxial cable connected to a second radio frequency source. 15. The method of claim 13 , wherein the first open slot radiating structure is excited by capacitively coupling a first radiating structure to the first open slot radiating structure, the first radiating structure being fed by a first radio frequency source. 16. The method of claim 13 , wherein the second open slot radiating structure is excited by capacitively coupling a second radiating structure to the second open slot radiating structure, the second radiating structure being fed by a second radio frequency source. 17. The method of claim 13 , wherein providing at least one closed slot radiator element located between the first open slot radiating structure and the second open slot radiating structure on the face of the surface of the metal casing of the electronic device includes providing a first closed slot radiator element and a second closed slot radiator element.