Introduction to FETToy

By James K Fodor1; Jing Guo1

1. University of Florida

Category

Series

Published on

Abstract

This learning module introduces nanoHUB users to the FETToy simulator. A brief introduction to FETToy is presented, followed by voiced presentations featuring the simulator in action. Upon completion of this module, users should be able to use this simulator to gain valuable insight into the electronic and physical properties of cutting edge devices.

This series is a set of materials formerly known as a "Learning Module." The presentations are meant to be viewed in sequence to get a full understanding of the topic. Please click on the following links in order to access each of the presentations in sequence.

 

Cite this work

Researchers should cite this work as follows:

  • James K Fodor, Jing Guo (2007), "Introduction to FETToy," https://nanohub.org/resources/2844.

    BibTex | EndNote

Tags

  1. ballistic
  2. ballistic MOSFET
  3. carbon nanotubes
  4. nanoelectronics
  5. nanotransistors
  6. NEGF
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Introduction to FETToy
  • Introduction to FETToy Simulator 1. Introduction to FETToy Simulat… 0
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  • Introduction to FETToy 2. Introduction to FETToy 14.614614614614615
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  • Introduction to FETToy 3. Introduction to FETToy 60.6272939606273
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  • Problem 1 4. Problem 1 108.44177510844177
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  • 1a) Conventional Plot: ION vs. TOX 5. 1a) Conventional Plot: ION vs.… 197.03036369703037
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  • 1a) Conventional Plot: ION vs. TOX 6. 1a) Conventional Plot: ION vs.… 219.31931931931933
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  • 1a) Conventional Plot: ION vs. TOX 7. 1a) Conventional Plot: ION vs.… 238.5719052385719
    00:00/00:00
  • 1a) Conventional Plot: ION vs. TOX 8. 1a) Conventional Plot: ION vs.… 273.17317317317321
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  • 1a) Simulated Plot: ION vs. TOX 9. 1a) Simulated Plot: ION vs. TO… 307.24057390724056
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  • 1b) Conventional vs. Simulated 10. 1b) Conventional vs. Simulated 327.69436102769436
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  • Problem 2 11. Problem 2 410.84417751084419
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  • 2a) Conventional Plot: ION vs. meff 12. 2a) Conventional Plot: ION vs.… 485.95261928595266
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  • 2a) Conventional Plot: ION vs. meff 13. 2a) Conventional Plot: ION vs.… 502.36903570236905
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  • 2a) Conventional Plot: ION vs. meff 14. 2a) Conventional Plot: ION vs.… 521.72172172172179
    00:00/00:00
  • 2a) Conventional Plot: ION vs. meff 15. 2a) Conventional Plot: ION vs.… 569.43610276943616
    00:00/00:00
  • 2a) Conventional vs. Simulated 16. 2a) Conventional vs. Simulated 607.54087420754092
    00:00/00:00
  • 2b) Conventional vs. Simulated 17. 2b) Conventional vs. Simulated 628.82882882882882
    00:00/00:00
  • 2b) Conventional vs. Simulated 18. 2b) Conventional vs. Simulated 720.82082082082081
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  • Problem 3 19. Problem 3 793.79379379379384
    00:00/00:00
  • 3a) On-currents with TOX = 5nm 20. 3a) On-currents with TOX = 5nm 858.32499165832508
    00:00/00:00
  • 3a) On-currents with TOX = 5nm 21. 3a) On-currents with TOX = 5nm 866.66666666666674
    00:00/00:00
  • 3a) On-currents with TOX = 5nm 22. 3a) On-currents with TOX = 5nm 879.44611277944614
    00:00/00:00
  • 3a) On-currents with TOX = 5nm 23. 3a) On-currents with TOX = 5nm 904.03737070403736
    00:00/00:00
  • 3b) On-currents with TOX = .5nm 24. 3b) On-currents with TOX = .5n… 924.32432432432438
    00:00/00:00
  • 3c) Comparison: 5nm vs. 0.5nm 25. 3c) Comparison: 5nm vs. 0.5nm 949.683016349683
    00:00/00:00
  • 3c) Comparison: 5nm vs. 0.5nm 26. 3c) Comparison: 5nm vs. 0.5nm 1018.9856523189857
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  • Problem 4 27. Problem 4 1068.9356022689356
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  • 4a) Simulated Plot of ID/ION vs. VDS 28. 4a) Simulated Plot of ID/ION v… 1137.404070737404
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  • 4a) Simulated Plot of ID/ION vs. VDS 29. 4a) Simulated Plot of ID/ION v… 1146.2128795462129
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  • 4a) Simulated Plot of ID/ION vs. VDS 30. 4a) Simulated Plot of ID/ION v… 1158.2916249582918
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  • 4a) Simulated Plot of ID/ION vs. VDS 31. 4a) Simulated Plot of ID/ION v… 1184.5512178845513
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  • 4a) Simulated Plot of ID/ION vs. VDS 32. 4a) Simulated Plot of ID/ION v… 1207.3073073073074
    00:00/00:00
  • 4b) Explanation for difference in VDsat 33. 4b) Explanation for difference… 1229.7630964297632
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  • Problem 5 34. Problem 5 1281.4481147814481
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  • 5a) n- vs. p-type on-current comparison, 2nm 35. 5a) n- vs. p-type on-current c… 1347.947947947948
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  • 5a) n- vs. p-type on-current comparison, 2nm 36. 5a) n- vs. p-type on-current c… 1361.2946279612947
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  • 5a) n- vs. p-type on-current comparison, 2nm 37. 5a) n- vs. p-type on-current c… 1369.235902569236
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  • 5a) n- vs. p-type on-current comparison, 2nm 38. 5a) n- vs. p-type on-current c… 1375.7757757757759
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  • 5a) n- vs. p-type on-current comparison, 2nm 39. 5a) n- vs. p-type on-current c… 1395.1618284951619
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  • 5a) n- vs. p-type on-current comparison, 2nm 40. 5a) n- vs. p-type on-current c… 1415.6156156156158
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  • 5a) n- vs. p-type on-current comparison, 2nm 41. 5a) n- vs. p-type on-current c… 1427.7277277277278
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  • 5a) n- vs. p-type on-current comparison, 2nm 42. 5a) n- vs. p-type on-current c… 1436.2362362362362
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  • 5b) n- vs. p-type RCHANNEL comparison, 2nm 43. 5b) n- vs. p-type RCHANNEL com… 1474.7414080747415
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  • 5c) n- vs. p-type comparisons, .5nm 44. 5c) n- vs. p-type comparisons,… 1502.902902902903
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  • Problem 6 45. Problem 6 1579.9466132799466
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 46. 6a) 1D Electrostatics: Charge … 1647.1137804471139
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 47. 6a) 1D Electrostatics: Charge … 1661.2612612612613
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 48. 6a) 1D Electrostatics: Charge … 1678.0780780780781
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 49. 6a) 1D Electrostatics: Charge … 1683.0497163830498
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 50. 6a) 1D Electrostatics: Charge … 1719.4861528194863
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 51. 6a) 1D Electrostatics: Charge … 1782.3490156823491
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  • 6a) 1D Electrostatics: Charge vs. Voltage, 2nm 52. 6a) 1D Electrostatics: Charge … 1792.3590256923592
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  • 6b) 2D Electrostatics: Charge vs. Voltage, 2nm 53. 6b) 2D Electrostatics: Charge … 1875.608942275609
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  • 6b) 2D Electrostatics: Charge vs. Voltage, 2nm 54. 6b) 2D Electrostatics: Charge … 1917.917917917918
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  • 6b) 2D Electrostatics: Charge vs. Voltage, 2nm 55. 6b) 2D Electrostatics: Charge … 1954.0540540540542
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  • 6c) 1D/2D Electrostatics: Charge vs. Voltage, 0.5nm 56. 6c) 1D/2D Electrostatics: Char… 1984.1174507841176
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  • 6c) 1D/2D Electrostatics: Charge vs. Voltage, .5nm 57. 6c) 1D/2D Electrostatics: Char… 1997.530864197531
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  • 6c) 1D/2D Electrostatics: Charge vs. Voltage, .5nm 58. 6c) 1D/2D Electrostatics: Char… 2040.1735068401736
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  • 6c) 1D/2D Electrostatics: Charge vs. Voltage, .5nm 59. 6c) 1D/2D Electrostatics: Char… 2063.12979646313
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  • 6c) 1D/2D Electrostatics: Charge vs. Voltage, .5nm 60. 6c) 1D/2D Electrostatics: Char… 2076.8768768768768
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  • Problem 7 61. Problem 7 2083.2165498832164
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  • 7a) Silicon Nanowire FET at 300K 62. 7a) Silicon Nanowire FET at 30… 2158.425091758425
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  • 7a) Silicon Nanowire FET at 300K 63. 7a) Silicon Nanowire FET at 30… 2165.4654654654655
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  • 7a) Silicon Nanowire FET at 300K 64. 7a) Silicon Nanowire FET at 30… 2174.0073406740075
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  • 7a) Silicon Nanowire FET at 300K 65. 7a) Silicon Nanowire FET at 30… 2178.5785785785788
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  • 7a) Silicon Nanowire FET at 300K 66. 7a) Silicon Nanowire FET at 30… 2190.5905905905906
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  • 7b) Silicon Nanowire FET at 77K 67. 7b) Silicon Nanowire FET at 77… 2216.4164164164167
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  • 7b) Silicon Nanowire FET at 77K 68. 7b) Silicon Nanowire FET at 77… 2227.6943610276944
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  • 7b) Silicon Nanowire FET at 77K 69. 7b) Silicon Nanowire FET at 77… 2244.0106773440107
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  • 7b) Silicon Nanowire FET at 77K 70. 7b) Silicon Nanowire FET at 77… 2259.9933266599933
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  • 7b) Silicon Nanowire FET at 77K 71. 7b) Silicon Nanowire FET at 77… 2284.9182515849184
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  • 7c) Deducing Components of ION 72. 7c) Deducing Components of ION 2339.0056723390057
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  • 7c) Deducing Components of ION 73. 7c) Deducing Components of ION 2352.318985652319
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  • 7c) Deducing Components of ION 74. 7c) Deducing Components of ION 2355.9559559559561
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  • 7c) Deducing Components of ION 75. 7c) Deducing Components of ION 2370.4704704704704
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  • 7c) Deducing Components of ION 76. 7c) Deducing Components of ION 2397.797797797798
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