Presentation is loading. Please wait.

Presentation is loading. Please wait.

4/26/2002, Friday Evolution of Surface Roughness

Published byΖένια Αποστολίδης Modified over 5 years ago

Similar presentations

Presentation on theme: "4/26/2002, Friday Evolution of Surface Roughness"— Presentation transcript:

1 4/26/2002, Friday Evolution of Surface Roughness

2 Model

3 Chemical Potential for Roughness Evolution

4 Interface Energy Change
Thickness = t g: solid-etchant interface energy density Curvature

5 Strain Energy Change Strain energy difference
w0 is the strain energy of flat surface

6 Etching Rate g: solid-etchant interface energy density Curvature
Strain energy difference w0 is the strain energy of flat surface

7 Competition of Two Tendencies
Surface energy g For a perfectly flat surface, a stress applied parallel to the surface induces a uniform stress state in the solid. For a wavy surface, however, the stress field is nonuniform: the magnitude of the stress is larger at troughs than at crests. Consequently, the solid evaporates faster at the troughs than at the crests, so that the wave amplitude grows over time, and the surface roughens. When both surface energy and stress act together, the ratio of the surface energy to the elastic energy defines a length scale: short waves decay, but long waves grow. Residual stresss

8 Interface Energy Influence on Roughness Evolution
For a perfectly flat surface, a stress applied parallel to the surface induces a uniform stress state in the solid. For a wavy surface, however, the stress field is nonuniform: the magnitude of the stress is larger at troughs than at crests. Consequently, the solid evaporates faster at the troughs than at the crests, so that the wave amplitude grows over time, and the surface roughens. When both surface energy and stress act together, the ratio of the surface energy to the elastic energy defines a length scale: short waves decay, but long waves grow. Surface energy g

9 Strain Energy Influence on Roughness Evolution
For a perfectly flat surface, a stress applied parallel to the surface induces a uniform stress state in the solid. For a wavy surface, however, the stress field is nonuniform: the magnitude of the stress is larger at troughs than at crests. Consequently, the solid evaporates faster at the troughs than at the crests, so that the wave amplitude grows over time, and the surface roughens. When both surface energy and stress act together, the ratio of the surface energy to the elastic energy defines a length scale: short waves decay, but long waves grow. Residual stresss

10 Frequency Dependency of Interface Energy Change

11 Frequency Dependency of Strain Energy Change

12 Frequency Dependency of Etching Rate

13 Roughness Evolution Pattern
Stress state: Material parameters:

Download ppt "4/26/2002, Friday Evolution of Surface Roughness"

Similar presentations

Stress-Induced Wrinkling in Thin Films Rui Huang Center for Mechanics of Solids, Structures and Materials Department of Aerospace Engineering and Engineering.

Stress-Induced Wrinkling in Thin Films Rui Huang Center for Mechanics of Solids, Structures and Materials Department of Aerospace Engineering and Engineering.
Ripple Tank Summary.

Ripple Tank Summary.
Learning Goals: Define wavelength, frequency, period, and amplitude. Describe the relationship between frequency and wavelength. Explain how a wave’s energy.

Learning Goals: Define wavelength, frequency, period, and amplitude. Describe the relationship between frequency and wavelength. Explain how a wave’s energy.
Condition for generating a stable interference pattern Coherent waves are two circular waves of same frequency, wavelength, amplitude and phase.

Condition for generating a stable interference pattern Coherent waves are two circular waves of same frequency, wavelength, amplitude and phase.
Phys 250 Ch15 p1 Chapter 15: Waves and Sound Example: pulse on a string speed of pulse = wave speed = v depends upon tension T and inertia (mass per length.

Phys 250 Ch15 p1 Chapter 15: Waves and Sound Example: pulse on a string speed of pulse = wave speed = v depends upon tension T and inertia (mass per length.
By Aimee Chavez. Wave: a disturbance that transfers energy from place to place. The material through which a wave travels through is called a medium.

By Aimee Chavez. Wave: a disturbance that transfers energy from place to place. The material through which a wave travels through is called a medium.
Regents Physics. Wave Oscillations that travel Carry information and energy Have cycles, frequency, and amplitude.

Regents Physics. Wave Oscillations that travel Carry information and energy Have cycles, frequency, and amplitude.
We are beginning a new unit: Waves, Light, & Sound Introductory Video.

We are beginning a new unit: Waves, Light, & Sound Introductory Video.
Wave Properties. 〉 Some waves are scarier than others. 〉 To compare the strengths of waves, we measure amplitude (or the height of a wave)

Wave Properties. 〉 Some waves are scarier than others. 〉 To compare the strengths of waves, we measure amplitude (or the height of a wave)
UNIT 3. What is a Wave? Definition: A disturbance that transfers energy from place to place. What carries waves? A medium, a medium is the material through.

UNIT 3. What is a Wave? Definition: A disturbance that transfers energy from place to place. What carries waves? A medium, a medium is the material through.
Waves and Properties of Waves Physics. Waves A disturbance that carries energy through matter or empty space while moving from 1 place to another. They.

Waves and Properties of Waves Physics. Waves A disturbance that carries energy through matter or empty space while moving from 1 place to another. They.
Waves Introduction Chapter 10 Section 1 and 2 Physics Standard 4.

Waves Introduction Chapter 10 Section 1 and 2 Physics Standard 4.
Review: What’s the difference between a transverse and longitudinal wave? What do waves transfer? What are the high and low points of a transverse wave.

Review: What’s the difference between a transverse and longitudinal wave? What do waves transfer? What are the high and low points of a transverse wave.
MAY 12, 2014 Homework: Read pages 15-16 (Stop at Longitudinal Wave) in Sound and Light textbook- Define bold terms. -Unit vocabulary sheet due Friday Do.

MAY 12, 2014 Homework: Read pages (Stop at Longitudinal Wave) in Sound and Light textbook- Define bold terms. -Unit vocabulary sheet due Friday Do.
What are waves? a disturbance that transfers energy from place to place. Classified as either 1. Mechanical- require a medium 2. Electromagnetic- do not.

What are waves? a disturbance that transfers energy from place to place. Classified as either 1. Mechanical- require a medium 2. Electromagnetic- do not.
Example: pulse on a string speed of pulse = wave speed = v

Example: pulse on a string speed of pulse = wave speed = v
Ch. 14 Waves Concept Review

Ch. 14 Waves Concept Review
Dynamics of Surface Pattern Evolution in Thin Films Rui Huang Center for Mechanics of Solids, Structures and Materials Department of Aerospace Engineering.

Dynamics of Surface Pattern Evolution in Thin Films Rui Huang Center for Mechanics of Solids, Structures and Materials Department of Aerospace Engineering.
Waves and Energy. What is Energy?? Is the ability to do work….. Now try it in your own words:??? An ability to cause change.

Waves and Energy. What is Energy?? Is the ability to do work….. Now try it in your own words:??? An ability to cause change.
Wave Characteristics and Speed. a traveling disturbance that carries energy through matter or space matter moves horizontally or vertically just a little,

Wave Characteristics and Speed. a traveling disturbance that carries energy through matter or space matter moves horizontally or vertically just a little,

Similar presentations

Ads by Google