Quasi-static electric field generator

What is claimed is: 1. A generator for producing an electric field comprising: a casing; a non-conducting and triboelectrically neutral rotation shaft having a first end and a second end; a rotational bearing support provided at the first end of the shaft, the rotational bearing support is mounted to the casing; a drive system provided at the second end of the shaft, the drive system is mounted to the casing and is capable of rotating the shaft; an electrostatic dipole element having a negative electrode and a positive electrode; and a non-conducting support sleeve for mounting the negative electrode of the dipole element to the shaft and for mounting the positive electrode of the dipole element to the shaft, wherein the shaft and the support sleeve are configured to prohibit current flow directly between the negative electrode and the positive electrode, and wherein the generator works in a quasi-static range, the quasi-static range being associated with repeated generation of static fields at a rate less than a predefined quasi-static frequency threshold such that an instantaneous measurement of the electric field represents a static field. 2. The generator of claim 1 , wherein the casing has a surface which is formed of an electrically insulated conducting material and all remaining surfaces are formed of a non-conducting and triboelectrically neutral material. 3. The generator of claim 1 , wherein the rotational bearing support and the drive system are formed of a non-conducting and triboelectrically neutral material. 4. The generator of claim 1 , wherein the rotational bearing support and the drive system are formed of metal. 5. The generator of claim 1 , further including a charging system which uses an electrostatic approach, the charging system is wholly contained within the dipole element and the support sleeve. 6. The generator of claim 5 , further including a wireless motor system wholly contained within the dipole element. 7. The generator of claim 5 , wherein the charging system includes a driven belt, a first brush housed in one of the electrodes and proximate to the belt, and a second brush housed in the other of the electrodes and proximate to the belt, the belt being formed of a first material and the brushes being formed of a second material which is different than the first material. 8. The generator of claim 7 , wherein the charging system further includes a first and second pulleys around which the belt rotates. 9. The generator of claim 8 , wherein the first pulley is formed of a material which is different than the first material, and the second pulley is formed of a material which is different than the first material, the belt being rotated via the pulleys. 10. The generator of claim 5 , wherein the charging system further includes a first contact connected to the first brush and to the negative electrode, and a second contact connected to the second brush and to the positive electrode. 11. The generator of claim 10 , wherein the first and second contacts are springs. 12. The generator of claim 1 , wherein each of the negative electrode and the positive electrode have an oblate spheroid shape. 13. A generator for producing an electric field comprising: a casing formed from a surface which electrically insulated conducting material and all remaining surfaces are formed of a non-conducting and triboelectrically neutral material; a non-conducting and triboelectrically neutral rotation shaft having a first end and a second end; a rotational bearing support provided at the first end of the shaft, the rotational bearing support mounted to the casing; a drive system provided at the second end of the shaft, the drive system mounted to the casing and capable of rotating the shaft; an ungrounded electrostatic dipole element which works in a quasi-static range, the dipole element having a negative electrode having a conductive cover, a positive electrode having a conductive cover, a charging system, and a wireless motor system, the quasi-static range being associated with repeated generation of static fields at a rate less than a predefined quasi-static frequency threshold such that an instantaneous measurement of the electric field represents a static field; and a non-conducting support sleeve for mounting the dipole element to the shaft; wherein the charging system and the wireless motor system are wholly contained within the dipole element and the support sleeve, the charging system using an electrostatic approach to charge one of the electrodes, and wherein the shaft and the support sleeve are configured to prohibit current flow directly between the negative electrode and the positive electrode, and wherein the generator works in a quasi-static range, the quasi-static range being associated with repeated generation of static fields at a rate less than predefined quasi-static frequency threshold such that an instantaneous measurement of the electric field represents a static field. 14. The generator of claim 13 , wherein the rotational bearing support and the drive system are formed of a non-conducting and triboelectrically neutral material. 15. The generator of claim 13 , wherein the rotational bearing support and the drive system are formed of metal. 16. The generator of claim 13 , wherein each of the negative electrode and the positive electrode have an oblate spheroid shape. 17. The generator of claim 13 , wherein the charging system includes a driven belt formed of a first material, a first pulley formed of a material which is different than the first material, a second pulley formed of a material which is different than the first material, the belt being rotated via said pulleys, a first brush housed in one of the electrodes and proximate to the belt, and a second brush housed in the other of the electrodes and proximate to the belt, a first contact connected to the first brush and to the negative electrode, and a second contact connected to the second brush and to the positive electrode. 18. The generator of claim 17 , wherein the first and second contacts are springs. 19. The generator of claim 13 , wherein the support sleeve is triboelectrically neutral. 20. A generator for producing an electric field comprising: a non-conducting and triboelectrically neutral rotation shaft having a first end and a second end; a rotational bearing support provided at the first end of the shaft; an electrostatic dipole element having a negative electrode and a positive electrode; a non-conducting support sleeve for mounting the negative electrode of the dipole element to the shaft and for mounting the positive electrode of the dipole element to the shaft; wherein the shaft and the support sleeve are configured to prohibit current flow directly between the negative electrode and the positive electrode; and wherein the generator is configured to operate in a quasi-static range, the operation in the quasi-static range including repeated generation of static fields at a rate less than a predefined quasi-static frequency threshold such that an instantaneous measurement of the electric field represents a static field.