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Section 5: Thin Film Deposition part 1 : sputtering and evaporation

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1 Section 5: Thin Film Deposition part 1 : sputtering and evaporation
Jaeger Chapter 6 EE143 – Ali Javey

2 Vacuum Basics Units Ideal Gas Law: PV = NkT
1 atmosphere = 760 torr = 1.013x105 Pa 1 bar = 105 Pa = 750 torr 1 torr = 1 mm Hg 1 mtorr = 1 micron Hg 1Pa = 7.5 mtorr = 1 newton/m2 1 torr = Pa Ideal Gas Law: PV = NkT k = 1.38E-23 Joules/K = 1.37E-22 atm cm3/K N = # of molecules (note the typo in your book) T = absolute temperature in K EE143 – Ali Javey 2

3 3. Dalton’s Law of Partial Pressure
For mixture of non-reactive gases in a common vessel, each gas exerts its pressure independent of others. P = P + P + … + P (Total P = Sum of partial pressure) total 1 2 N N = N + N + … + N total 1 2 N P V = N kT 1 1 P V = N kT 2 2 P V = N kT N N EE143 – Ali Javey

4 4. Average Molecular Velocity
Assumes Maxwell-Boltzman Velocity Distribution 1/2 v = (8kT/ p m) where m = molecular weight of gas molecule EE143 – Ali Javey

5 5. Mean Free Path between collisions
kT l = 2 2 p d P where n = molecular density = N/V, d = molecular diameter 6.6 0.05 [Note] For air at 300 °K, l = = P( in Pa) P( in torr) with l in mm EE143 – Ali Javey

6 6. Impingement Rate F = # of molecules striking unit surface /unit time. P in #/cm2-sec with P in Pa, M is the molecular weight 22 = 3.5 10 × MT EE143 – Ali Javey

7 Question How long does it take to form a monolayer of gas on the surface of a substrate? EE143 – Ali Javey

8 Time to form a monolayer (sec)
Vacuum Basics (Cont.) At 25oC P I 1 mm/min M Time to form a monolayer (sec) Impingment Rate (Molecules/cm2s) Mean free Path (mm) Residual Vacuum Plasma Processing CVD Pressure (Torr) EE143 – Ali Javey

9 Chemical Vapor Deposition
Thin Film Deposition Physical Methods Chemical Methods Evaporation Sputtering Reactive Sputtering Chemical Vapor Deposition Low Pressure CVD Plasma Enhanced CVD film substrate Applications: Metalization (e.g. Al, TiN, W, silicide) Poly-Si dielectric layers; surface passivation. EE143 – Ali Javey

10 Electron Beam Evaporation
wafer wafer deposited Al film Al vapor Al vapor deposited Al film e Al crucible is water cooled heating boat (e.g. W) hot electron source Thermal Evaporation Electron Beam Evaporation Gas Pressure: < 10-5 Torr EE143 – Ali Javey

11 Evaporation: Filament & Electron Beam
Filament Evaporation with Loops of Wire Hanging from a Heated Filament Electron Beam is Focused on Metal Charge by a Magnetic Field EE143 – Ali Javey

12 Sputtering Gas Pressure 1-10 m Torr Deposition rate = I Example:
Negative Bias ( kV) I Al target Example: DC plasma Ar+ Al Ar+ Al Ar plasma Al Deposited Al film heat substrate to ~ 300oC (optiona12l) wafer Gas Pressure m Torr Deposition rate = sputtering yield ion current EE143 – Ali Javey

13 Plasma Basics EE143 – Ali Javey

14 Basic Properties of Plasma
The bulk of plasma contains equal concentrations of ions and electrons. Electric potential is  constant inside bulk of plasma. The voltage drop is mostly across the sheath regions. Plasma used in IC processing is a “weak” plasma, containing mostly neutral atoms/molecules. Degree of ionization is  10-3 to 10-6. EE143 – Ali Javey

15 Outcomes of Plasma bombardment
EE143 – Ali Javey

16 Sputtering Yield EE143 – Ali Javey

17 Sputtering of Compound Targets
AxBy Ar+ Aflux Bflux Because SA  SB, Target surface will acquire a composition Ax’By’ at steady state. target EE143 – Ali Javey

18 Sputter a Ti target with a nitrogen plasma
Reactive Sputtering Ti Target Example: Formation of TiN N2 plasma Sputter a Ti target with a nitrogen plasma Ti, N2+ TiN Substrate EE143 – Ali Javey

19 Step Coverage Problem with PVD
Both evaporation and sputtering have directional fluxes. wafer step film Flux “geometrical shadowing” EE143 – Ali Javey

20 Step Coverage concerns in contacts
EE143 – Ali Javey

21 Methods to Minimize Step Coverage Problems
Rotate + Tilt substrate during deposition Elevate substrate temperature (why?) Use large-area deposition source Sputtering Target EE143 – Ali Javey

22 Advantages of Sputtering over Evaporation
For multi-component thin films, sputtering gives better composition control using compound targets. Evaporation depends on vapor pressure of various vapor components and is difficult to control. Better lateral thickness uniformity – superposition of multiple point sources EE143 – Ali Javey

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