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Silicon on Insulator

Silicon on Insulator. Advanced Electronic Devices Karthik Swaminathan. Reasons for SOI. Replacement for SOS Need to extend Moore’s Law Commercial Availability of SOI wafers . Advantages of SOI. Reduced Source and Drain to Substrate Capacitance. Absence of Latchup. Lower Passive current.

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Silicon on Insulator

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  1. Silicon on Insulator Advanced Electronic Devices Karthik Swaminathan

  2. Reasons for SOI • Replacement for SOS • Need to extend Moore’s Law • Commercial Availability of SOI wafers

  3. Advantages of SOI • Reduced Source and Drain to Substrate Capacitance. • Absence of Latchup. • Lower Passive current. • Denser Layout  Low cost.

  4. SOI Wafer Fabrication • Bond and Etch Back • SIMOX (Separation by IMplantation Of oXygen) • SIMON(Separation by IMplantation Of Nitrogen)

  5. Oxygen BOX heat SIMOX SIMOX silicon

  6. Fully Depleted (FD) SOI • This is what you expect. • FDSOI MOSFET • Depleted channel. http://www.soisic.com/SOI_keys_benefits.htm

  7. Partially Depleted (PD) SOI • What if active Si layer is thick ? • Body in channel floating  Floating body effect. http://www.soisic.com/SOI_keys_benefits.htm

  8. Is SOI just in the textbooks ?

  9. Novel SOI Devices • Dual gate SOI. • SOI Single electron transistors.

  10. Double-Gate SOI MOSFET • ITRS roadmap – dual gate SOI at 15nm. • Thick gate oxide to ensure equal thickness on both sides. IEEE Tran on Elec. Dev. 50,3,March 2003,Ultimately Thin Double-Gate SOI MOSFETs Thomas Ernst et al.

  11. Issues – Negative resist for EBL • PMMA resist is a good positive resist for EBL. • Do we have a good negative EBL resist  high resolution. • NO  alternate techniques.

  12. Negative Resist – SOI ? • EBL. • Plasma oxidation. • Etching of amorphous silicon. • BOX removal.

  13. Negative resist – silicon ? • EBL • Plasma oxidation • Electron cyclotron resonance chlorine etching of silicon.

  14. SOI SET

  15. TEM image of trenches

  16. AFM image of SET

  17. Conductance Oscillations Vds = 10mV

  18. SET by pattern dependent oxidation

  19. Pattern dependent oxidation

  20. Pattern dependent oxidation • Thermal gate oxidation. • Oxygen diffuses through the BOX and reaches the pattern edges which are oxidized. • Stresses due to volume change prevent oxidation of the island.

  21. Conductance Oscillations Ld=50nm Vds = 1mV

  22. Conductance Oscillations Ld=70nm Vds = 1mV

  23. Conductance Oscillations Ld=100nm Vds = 1mV

  24. Gate capacitance vs Ld

  25. Summary • Future devices will involve SOI. • SOI provides certain benefits over bulk CMOS for smaller gate lengths. • SOI SETs may become a promising technology in the future.

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