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Etching

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Title: Etching


1
Etching
  • ECE/ChE 4752 Microelectronics Processing
    Laboratory

Gary S. May February 19, 2004
2
Outline
  • Introduction
  • Wet Chemical Etching
  • Plasma Etching

3
Definition
  • Recall Photolithography process of
    transferring patterns (on masks) onto a thin
    layer of photoresist
  • Photoresist patterns must be transferred once
    more onto the underlying layers to produce
    circuit features
  • Pattern transfer accomplished by selectively
    etching unmasked portions of a layer

4
Etching Hierarchy
5
Outline
  • Introduction
  • Wet Chemical Etching
  • Plasma Etching

6
Uses
  • Prior to thermal oxidation or epitaxial growth,
    wafers are chemically cleaned to remove
    contamination
  • Especially suitable for blanket etches (i.e.,
    over the whole wafer surface) of polysilicon,
    oxide, nitride, metals, and III-V compounds.

7
Mechanism
  1. Reactants transported by diffusion to surface
  2. Reactions occur at surface
  3. Products from surface removed by diffusion

8
Uniformity
  • Equality of vertical etch rates at different
    sites on the wafer surface
  • This is actually non-uniformity
  • Alternative definitions
  • s/m

9
Silicon Etching
  • Most etchants are mixtures of HNO3 and HF in
    water or acetic acid (CH3COOH).
  • HNO3 oxidizes silicon to form an SiO2 layer
  • Si 4HNO3 ? SiO2 2H2O 4NO2
  • HF is used to dissolve the SiO2 layer
  • SiO2 6HF ? H2SiF6 2H2O
  • Water can be used as a diluent for this etchant,
    but acetic acid is preferred.

10
Orientation-Dependent Etching
  • Some etchants dissolve a certain crystal plane of
    Si faster than another plane
  • For Si, the (111) plane has more available bonds
    per unit area than the (110) and (100) planes
  • Therefore, etch rate is slower for the (111)
    plane.

11
KOH Etching
  • KOH is an orientation-dependent etchant for Si.
  • Solution with 19 wt KOH in deionized water at
    80 oC removes the (100) plane at a much higher
    rate than the (110) and (111) planes ratio of
    etch rates for (100)(110)(111) planes
    100161.

12
SiO2 Etching
  • Commonly etched in a dilute solution of HF with
    or without NH4F
  • Adding NH4F is called a buffered HF solution
    (BHF), also called buffered-oxide-etch (BOE)
  • Reaction for SiO2 etching
  • SiO2 6HF ? H2SiF6 2H2O
  • SiO2 can also be etched in vapor-phase HF.

13
Outline
  • Introduction
  • Wet Chemical Etching
  • Plasma Etching

14
Anisotropy
  • Vertical features are desirable to increase
    circuit density.
  • Quantitatively
  • where RL lateral etch rate, RV vertical etch
    rate

15
Plasma Fundamentals
  • Plasma ionized gas composed of equal numbers of
    positive and negative charges and a different
    number of unionized molecules
  • Produced when electric field is applied to a gas,
    causing gas to break down and become ionized
  • Initiated by free electrons that gain kinetic
    energy from electric field, collide with gas
    molecules, and lose energy.
  • Energy transferred causes the gas molecules to be
    ionized (i.e., to free electrons).
  • Free electrons gain kinetic energy from the
    field, and the process continues.

16
Plasma Etching
  • Plasma etching - chemical reaction combined with
    physical ion bombardment
  • Other names
  • ion milling
  • sputter etching
  • reactive ion etching
  • reactive ion beam etching
  • First explored as a cheaper alternative to wet
    solvent resist stripping in 1960s and 70s

17
Etch Equipment
18
Etch Mechanism
  1. Etchant species generated in plasma.
  2. Reactant transported by diffusion to surface.
  3. Reactant adsorbed on the surface.
  4. Chemical reaction (along with ion bombardment)
    forms volatile compounds.
  5. Compounds desorbed from surface, diffused into
    the bulk gas, and pumped out by vacuum system.

19
End-Point Control
  • Dry etching has less etch selectivity than wet.
  • Plasma reactor must be equipped with a monitor
    that indicates when the etching process is to be
    terminated (end point detection system).
  • Laser interferometry is used to determine the end
    point.

20
Laser Interferometry
  • Intensity of laser light reflected off thin film
    surface oscillates.
  • Period of the oscillation related to change in
    film thickness
  • where Dd change in film thickness, l is the
    wavelength, and is the refractive index

21
Interferometry Example
  • Typical signal from a silicide/polycrystalline Si
    gate etch
  • Dd for polysilicon 80 nm (measured by using a
    He-Ne laser with l 632.8 nm)
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