Compact electrical switching devices with nanotube elements, and methods of making same

1. An electrical device, comprising:

• a substrate having an upper surface;
  
  a first active area in the substrate, comprising a first source region, a first drain region, and a first channel region disposed between the first source region and the first drain region;
  
  a second active area in the substrate, comprising a second source region and the second drain region;
  
  a first word line and a second word line disposed in a first plane positioned above the upper surface of the substrate, wherein the first word line is disposed over the first channel region, and the second word line is disposed over the second channel region;
  
  a first bit line in electrical communication with the first active area, and a second bit line in electrical communication with the second active area, the first and second bit lines disposed in a second plane positioned above the first plane, wherein the first bit line is in electrical communication with the first drain region, and the second bit line is in electrical communication with the second drain region;
  
  a first reference line disposed in a third plane positioned above the first plane; and
  
  a first nanotube element disposed in a fourth plane positioned above the first and second planes, the first nanotube element having a first surface and extending laterally in the fourth plane parallel to a plane of the substrate,the first nanotube element being in electrical communication with the first active region, the second active region and the first reference line via electrical contacts at the first surface of the first nanotube element,the first nanotube element comprising a first region and a second region, the first and second regions having resistance states that are independently adjustable in response to electrical stimuli, the first and second regions nonvolatilely retaining said resistance states,a third active area in the substrate, the third active area comprising a third source region, the first drain region, and a third channel region disposed between the third source region and the first drain region;
  
  a fourth active area in the substrate, the fourth active area comprising a fourth source region, the second drain region, and a fourth channel region disposed between the fourth source region and the second drain region;
  
  a third word line disposed over the third channel region, and a fourth word line disposed over the fourth channel region, the third and fourth word lines being disposed in the first plane;
  
  second and third reference lines disposed in the third plane;
  
  a second nanotube element in electrical communication with the third source region and the second reference line, a resistance state of the second nanotube element being independently adjustable responsive to electrical stimulus on the third word line and at least one of the first bit line and the second reference line; and
  
  a third nanotube element in electrical communication with the fourth source region and the third reference line, a resistance state of the third nanotube element being independently adjustable responsive to electrical stimulus on the fourth word line and at least one of the second bit line and the third reference line.