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Nanoscale Transistors Lecture 3: Controlling Current by Modulating a Barrier

By Mark Lundstrom

Electrical and Computer Engineering, Purdue University, West Lafayette, IN

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Nanoscale Transistors Lecture 3: Controlling Current by Modulating a Barrier

by: Mark Lundstrom

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1. Lecture 3: Controlling current… 0

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2. understanding MOSFETs 33.93333333333333

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3. Kroemer’s lemma of proven ig… 61.3

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4. silicon energy levels / energy… 104.16666666666667

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5. silicon energy levels / energy… 159.06666666666666

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6. Fermi function 269.46666666666664

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7. n-type semiconductor 397.73333333333335

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8. p-type semiconductor 473.3

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9. equilibrium energy band diagra… 513.5

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10. equilibrium energy band diagra… 620.36666666666667

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11. result 675.06666666666672

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12. result 710.23333333333335

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13. equilibrium energy band diagra… 754.4

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14. effect of gate voltage 777.9666666666667

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15. effect of drain voltage 869.43333333333328

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16. effect of gate and drain volta… 940.86666666666667

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17. how transistors work 1062.6

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18. MOSFETs are barrier controlled… 1243.2666666666667

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19. top of the barrier / virtual s… 1385.2

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20. 2D energy band diagrams 1400.2

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21. references 1443.4333333333334

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