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Gas Delivery & Diagnostics
Digital version of Mar 2008
Mar. '08 Digital Edition

Gas Delivery & Diagnostics
Digital version of November 2007
Nov. '07 Digital Edition

Gas Delivery & Diagnostics
Digital version of September 2007
Sep '07 Digital Edition

COLUMNS

The following columns are available to read in their original format:

Kimo's Corner
Kimo M. Welch		 Thin Film Technology
Dr. Peter M. Martin		 Vacuum Corner
Bob Langley and Paul LaMarche
A Troublesome Component Manufacturing Sequence (March 2001) Thin Film Shielding Coatings in a Nutshell 1: Materials (February 2001) "Much Ado About Nothing" (July 2001)
Verifying a Leak Checker's Sensitivity To ~10-12 Torr-Liters He/sec High (April 2001) Thin Film Shielding Coatings 2: Designs (April 2001) Cleaning of Parts fo Use in Vacuum (August 2001)
All Metal Vacuum Seals (May 2001) Amorphous Silicon, A Versatile Optical Material (May 2001) Electrostatic Charge in the Vacuum Coating Industry (October 2001)
More on All-Metal Vacuum Seals (June 2001) Thin Film Energy Applications: Switchable Coatings for Solar Control (June 2001) The "Ideal" Vacuum (November 2001)
Thin Films in Energy Conversion (Aug 2001) Water: The Scourge of Vacuum Systems (December 2001)

ALL BACK ISSUE COLUMN TITLES

FEBRUARY 2008:

  • Thin Film Technology: Transparent Conductive Thin Films: ZnO and Doped ZnO
  • Editorial
  • Vacuum Corner: Summary of the 2007 AVS International Symposium
  • Nanotechnology: Potential of Nanotechnology in Enhancing the Material and Interface Properties of Surgically Implantable Biomaterials

JANUARY 2008:

  • Thin Film Technology: Transparent Conductive Thin Films: Induim Tin Oxide
  • Editorial
  • Vacuum Corner: Molecule Without a Cause - Part Three: Scattering of Atoms and Molecules from Material Surfaces
  • Nanotechnology: Nanotechnology for the Printed Electronics Industry - Part Two
  • What's New in the Lab: Researchers Shed New LIght on the Superconductivity Phenomenon

DECEMBER 2007:

  • Thin Film Technology: Transparent Conductive Thin Films and Materials: Introduction
  • Editorial
  • Vacuum Corner: Molecule Without a Cause - Part Two: Random Velocities and the Sum of the Parts
  • Kimo's Corner: Cryopumping Tutorial© Part Nine: System Configuration, Safety, Regeneration, & Pros and Cons
  • What's New in the Lab: Heavier Hydrogen Reduces Friction

NOVEMBER 2007:

  • Light Emission, Luminescence, and Fluorescences
  • Editorial
  • Vacuum Corner: Molecule Without a Cause - Part One: Inventing an Imaginary Gas
  • Kimo's Corner: More on Aluminum vs. Stainless Steel©
  • Nanotechnology: Nanotechnology for the Printed Electronics Industry
  • What's New in the Lab: Super-Efficient Solar Cells

OCTOBER 2007:

  • Thin Film Technology: Electrons in Metals: Thin Films
  • Editorial
  • Vacuum Corner: Intuition Vacuum
  • Kimo's Corner: Cryopumping Tutorial© Part 8: Troubleshooting of Cryopumped Systems
  • Plasma Corner Tutorial: Introduction to Plasmas
  • What's New in the Lab: Flexible Batteries and Energy Storage Devices Fabricated from Nanocomposites

SEPTEMBER 2007:

  • Thin Film Technology: Electrons in Metals II: Quantum Theory
  • Editorial
  • Vacuum Corner: What's New in the Vacuum Gauging World: Part 5: Modularity and Specialization
  • Kimo's Corner: Cryopumping Tutorial© Part 7: Closed Loop Gaseous Helium Refridgerators How They Work
  • Nanotechnology: Nanotechnology for Holographic Optical Data Storage Industry
  • What's New in the Lab: The Interesting Case of Black Silicon

AUGUST 2007:

  • Thin Film Technology: Electrons in Solids and Thin Films: Classic Theory
  • Editorial
  • Vacuum Corner: What's New in the Vacuum Gauging World: Part 4: Compactificationalism
  • Kimo's Corner: Cryopumping Tutorial© Part 6: Limited Refrigeration Capacity
  • What's New in the Lab: What's New in the Vacuum Gauging World: Thin Films and MEMS Devices Enable the JWST Space Telescope

JULY 2007:

  • Thin Film Technology: Solid Oxide and Thin Film - Solid Oxide Fuel Cells
  • Editorial
  • Vacuum Corner: What's New in the Vacuum Gauging World: Part 3: Ionization Gauges
  • Nanotechnology: Nanotechnology for Coatings Industry: Part III

JUNE 2007:

  • Thin Film Technology: Electrochemical Energy Conversion: PEM Fuel Cells
  • Editorial
  • Vacuum Corner: What's New in the Vacuum Gauging World: Part Two: Direct Pressure Measurement with Diaphragm Gauges
  • Kimo's Corner: A Cryopumping Tutorial: Part Five© The Use of Sieve Materials

MAY 2007:

  • Thin Film Technology: Energy Conversion Technology: Chemical to Electrical, Fuel Cell 1
  • Editorial
  • Vacuum Corner: What's New in the Vacuum Gauging World: Part One - A long way from where we started with thermal conductivity gauges
  • Kimo's Corner: A Cryopumping Tutorial: Part Four© - Effect of Adsorption Isotherms On Cryopumping Speed
  • Nanotechnology: Nanotechnology for the Coating Industry: Part II

APRIL 2007:

  • Thin Film Technology: Energy
  • Editorial
  • Vacuum Corner: It Depends...it depends on what?
  • Kimo's Corner: A Cryopumping Tutorial: Part Three© Adsorption Isotherms

MARCH 2007:

  • Thin Film Technology: Thermoelectric Energy Conversion 3: Power Generation and Cooling Systems
  • Editorial
  • Vacuum Corner: Why Isn't Vacuum Technology Dead Yet?
  • Kimo's Corner: A Cryopumping Tutorial: Part Two© - Vapor Pressure
  • Nanotechnology: Nanotechnology for the Coatings Industry

FEBRUARY 2007:

  • Thin Film Technology: Thermoelectric Energy Conversion 2: Thin Film Materials
  • Editorial
  • Vacuum Corner: Summary of the 2006 AVS International Symposium
  • Kimo's Corner: A Cryopumping Tutorial: Part One©

JANUARY 2007:

  • Thin Film Technology: Thermoelectric Energy Conversion 1: Basic and Bulk Materials
  • Editorial
  • Vacuum Corner: What Else Can You Do To Fingerprint and Diagnose Your System Part 3: What does it mean when it does this?
  • Kimo's Corner: Applying Some Recent Equations©
  • Nanotechnology: Nanotechnology for Pure Water

DECEMBER 2006:

  • Thin Film Technology: Light and Energy from Biological Systems
  • Editorial
  • Vacuum Corner: What Else Can You Do To Fingerprint and Diagnose Your System - Part 2: Base-line your system to solve pressure and flow problems
  • Kimo's Corner: Speed and Convenient Abstractions©
  • Nanotechnology: Nanotechnology for Advanced Medicines

NOVEMBER 2006:

  • Thin Film Technology: Advanced Solar Cells
  • Editorial
  • Vacuum Corner: What Else Can You Do To Fingerprint and Diagnose Your System Part 1
  • Kimo's Corner: Sticking Coefficients©
  • Nanotechnology: Nanotechnology for Advanced Medicines

OCTOBER 2006:

  • Thin Film Technology: Thin Film Solar Cells: Basics
  • Editorial
  • Vacuum Corner: Analysis of Residual Gas Analyzer Spectra Part 6
  • Kimo's Corner: More on Thermal Transpiration©

SEPTEMBER 2006:

  • Thin Film Technology: Thin Film Solar Cells 1: Basics
  • Editorial
  • Vacuum Corner: Analysis of Residual Gas Analyzer Spectra Part 5
  • Kimo's Corner: Thermal Transpiration©
  • Nanotechnology: Nanotechnology for Safe, Quality Foods: Thinking Outside the Box

AUGUST 2006:

  • Thin Film Technology: How to Set Up a Thin Film Coating Process
  • Editorial
  • Kimo's Corner: More on Isomorphisms©
  • Vacuum Corner: Analysis of Residual Gas Analyzer Spectra Part 4

JULY 2006:

  • Thin Film Technology: Energy Conversion Materials and Systems
  • Editorial
  • Vacuum Corner: Analysis of Residual Gas Analyzer Spectra Part 3
  • Kimo's Corner: An Isomorphism©
  • Nanotechnology: Energy Conciousness Heats Up R&D on Nanotech Lighting Devices

JUNE 2006:

  • Thin Film Technology: Carbon Nanotubes
  • Editorial
  • Vacuum Corner: Analysis of Residual Gas Analyzer Spectra Part 2
  • Kimo's Corner: Play The Outgassing Song Again Kimo...I Wasn't Listening the First Time©

MAY 2006:

  • Thin Film Technology: Organic Thin Films: Part 3 Polymer Composites
  • Editorial
  • Vacuum Corner: Analysis of Residual Gas Analyzer Spectra Part 1
  • Kimo's Corner: Low Pressure Ionization of Gases©

APRIL 2006:

  • Thin Film Technology: Organic Thin Films: Part 2 Thin Film Polymers and Organics
  • Editorial
  • Vacuum Corner: What Can Your Pumpdown Curve Tell You? Are You Listening? Part 2
  • Kimo's Corner: High Pressure Electrical Breakdown©

MARCH 2006:

  • Thin Film Technology: Organic Materials and Thin Films: Introduction
  • Editorial
  • Vacuum Corner: What Can Your Pumpdown Curve Tell You? Are You Listening? Part I
  • Tech Topics: The Calibration of Vacuum Gauges Part 1
  • More From the Publisher

FEBRUARY 2006:

  • Thin Film Technology: Superconductivity II: Thin Film and High Temperature Superconductors
  • Editorial
  • Vacuum Corner: Summary of the 2005 AVS International Symposium
  • Kimo's Corner: I Stand Corrected©
  • Data Storage: Hard Disk Drives Head Fabrication

JANUARY 2006:

  • Thin Film Technology: Superconductivity
  • Editorial
  • Vacuum Corner: Choked Flow
  • Kimo's Corner: O.K. Kimo Put Up, Or Shut Up!©

DECEMBER 2005:

  • Thin Film Technology: Antireflection Coatings II: Multilayer Designs
  • Editorial
  • Vacuum Corner: Guide for Selecting a Pressure Gauge Part 6: Radioactive Pressure Gauge
  • Tech Topic: iSCSI Leads to Simpler Data Storage Connections

NOVEMBER 2005:

  • Thin Films Technology: Antireflection Coatings 1: Basics
  • Editorial
  • Vacuum Corner: Thermal Management in Vacuum
  • Kimo's Corner: The Mystery of Diminishing Sputter-Ion Pump Hydrogen Pumping Speed at Low Pressures©
  • Tech Topic: Parallel SCSI Transitions to Serial Attach SCSI (SAS)
  • Tech Topic: The Rise and Dominance of Parallel SCSI
  • Tech Topic: Mikado's Quick Vacuum Hot Lamination System for Emerging Press Applications
  • Data Storage: Hard Disk Drives Versus Flash Memory - Which Will Win

OCTOBER 2005:

  • Thin Film Technology: Thermoelectric Materials and Energy Applications
  • Editorial
  • Vacuum Corner: PART FIVE: Guide for Selecting a Pressure Gauge; McLeod Gauge
  • Kimo's Corner: A Little Hydrogen Pumping by Sputter-Ion Pumps (Won't I Ever Learn?)©
  • VT&C Guides to Vacuum Processing

SEPTEMBER 2005:

  • Thin Film Technology: Glow Discharge Polymerization
  • Editorial
  • Vacuum Corner: Spinning Rotor Gauge
  • Kimo's Corner: PART FOUR: Trouble-Shooting A Vacuum System® Leak Checking
  • VT&C Guides to Vacuum Processing: Piezoelectric Materials and Thin Films

AUGUST 2005:

  • Thin Film Technology: Plasma Surface Activation
  • Editorial
  • Vacuum Corner: Part Three: Guide for Selecting a Pressure Gauge; Capacitance Manometer
  • VT&C Guides to Vacuum Processing: Electrochromic Thin Films
  • Kimo's Corner: Folk Lore©

JULY 2005:

  • Thin Film Technology: Ion Treatments in Thin Film Deposition: Ion Assisted Deposition
  • Editorial
  • Vacuum Corner: Ionization Gauges
  • VT&C Guides to Vacuum Processing: Advanced Hard Coatings and Super Hard Coatings
  • Kimo's Corner: Part Three: Trouble-Shooting a Cryopump Vacuum System - Leak Checking®

JUNE 2005:

  • Thin Film Technology: Silver Thin Films, More Than Meets the Eye
  • Editorial
  • Vacuum Corner: Part One: Guide for Selecting a Pressure Gauge
  • Kimo's Corner: Part Two: Trouble-Shooting a Cryopumped Vacuum System©

MAY 2005:

  • Thin Film Technology: Thin Films and Bulk Materials, a Comparison
  • Editorial
  • Vacuum Corner: A Numerical Model for a Simple Vacuum System
  • Kimo's Corner: Part One: Trouble-Shooting a Cryopumped Vacuum System©
  • Applications: Thermal Control Coatings
  • Vacuum Technology: Oil Diffusion Pumps

APRIL 2005:

  • Biophotonics V: Advanced Applications
  • Editorial
  • Vacuum Corner: Building a Vacuum Technology Reference Library
  • Kimo's Corner: Back to the Issue of O-Rings©
  • Plasma Technology: Reactive Plasma Stripping
  • Surface Preparation: Rinsing and Drying

MARCH 2005:

  • Biophotonics IV: Biosensors
  • Editorial:
  • Vacuum Corner: A Summary of the 2004 AVS International Symposium
  • Kimo's Corner: Further Clarification on ConFlat® Flanges©
  • Introduction: Physical Vapor Deposition (PVD) Processes
  • Applications: Film Adhesion and "Deadhesion"

FEBRUARY 2005:

  • Biophotonics III:
  • Editorial:
  • Vacuum Corner: The Vacuum Science and Technology Top 10 List: Pet Peeves
  • Kimo's Corner: Variants of the Long Tube Formula©
  • Vacuum Technology: Deposition Chambers and Vacuum "Conditioning"
  • Surface & Thin Film Technology: Characterization of PVD Films

JANUARY 2005:

  • Biophotonics II: Information That Photonic Data Receives From Biological Systems
  • Editorial
  • Vacuum Corner: Vacuum Style Manual: Pet Peeves and Other Particulars
  • Kimo's Corner: Titanium Sublimation Pump Sources©
  • Safety: Safety Aspects of Vacuum Processing
  • Vacuum Technology: Cryopumps, Sorption Pumps, and Cryopanels

DECEMBER 2004:

  • Introduction to Biophotonics
  • Editorial
  • Vacuum Corner: Criteria for Selection of Pumping Fluids for Diffusion Pumps and of Vacuum Greases
  • Kimo's Corner: Titanium Sublimation Pumps How They Work©
  • Applications: Low-Pressure CVD and PECVD: Plasma-Enhanced Chemical Vapor Deposition (PECVD)
  • Applications: Antireflection (AR) Coatings

NOVEMBER 2004:

  • Thin Film Technology: Sensor Applications for Thin Films
  • Editorial
  • Kimo's Corner: Now That's Hot!©
  • Vacuum Corner: Criteria for Selection of Pumping Fluids for Forepumps, Part 2
  • Surface Preparation: Reactive Cleaning
  • Atomistic Film Growth & Resulting Film Properties: Pinholes

OCTOBER 2004:

  • Thin Film Technology: Thin Film Coatings for Astronomical Applications
  • Editorial
  • Kimo's Corner: Practice Makes Perfect©
  • Vacuum Corner: Criteria for Selection of Pumping Fluids for Forepumps, Part 1
  • Vacuum Technology: Mechanical Vacuum Pumps
  • Ion Plating Fundamentals: Ion Plating

SEPTEMBER 2004:

  • Thin Film Technology: Protective Coatings IV: Corrosion Resistance Coatings
  • Editorial
  • Kimo's Corner: I Guess They Forgot©
  • Vacuum Corner: Molecule-Wall Interactions: Not-So-Ideal Vacuum, Part 2
  • Applications: Ophthalmic Coatings
  • Vacuum Technology: Pumpdown - Leakup

AUGUST 2004:

  • Thin Film Technology: Protective Coatings IV: Tribological Coatings
  • Editorial
  • Kimo's Corner: Seldom is Something Perfect©
  • Vacuum Corner: Not-So-Ideal Vacuum
  • Applications: Antireflection (AR) Coatings
  • Vacuum Evaporation: Reactive Evaporation

JULY 2004:

  • Thin Film Technology: Protective Coatings III: Optical Materials
  • Editorial
  • Kimo's Corner: Harnessing the Beldam of Penning Discharges©
  • Vacuum Corner: O-Rings: Groove Design - Part 2
  • Sputter Deposition: Physical Sputtering
  • Plasma Technology: RF & Microwave Plasma Sources

JUNE 2004:

  • Thin Film Technology: Protective Coatings II: Shielding Coatings
  • Editorial
  • Kimo's Corner: A Century of Capture Pumping Technology Sputter - Ion Pumping©
  • Vacuum Corner: O-Rings: Materials - Part 1
  • Sputter Deposition: Reactive Sputter Deposition
  • Surface and Film Characterization: Wear for Vacuum Coaters

MAY 2004:

  • Thin Film Technology: Protective Coatings 1: Hard Coatings
  • Editorial
  • Vacuum Corner: Cleaning Up
  • Kimo's Corner: A Century of Capture Pumping Technology©
  • Surface and Film Characterization: Rutherford Backscattering Spectrometry (RBS)
  • Surface and Film Characterization: Corrosion For Vacuum Coaters

APRIL 2004:

  • Thin Film Technology: Thin Film Boron Carbide, Semiconductor with Many Uses
  • Editorial
  • Vacuum Evaporation: Vacuum Evaporation and and Vacuum Deposition
  • Vacuum Corner: Error, Uncertainty, and Experimental and Process Analysis, Part II
  • Low-Pressure CVD and PECVD: Atomic Layer Deposition (ALD) and Nanolayer Deposition (NLD)
  • Kimo's Corner: You've Got 45 Minutes©

MARCH 2004:

  • Thin Film Technology: Stress in Thin Films
  • Editorials
  • Vacuum Corner: Vitreous Vacuum
  • Kimo's Corner: We Often Overlook the Obvious©
  • Arc Vapor Deposition: Arc Vaporization and Arc Vapor Deposition
  • Vacuum Technology: Heating and Cooling in Vacuum

FEBRUARY 2004:

  • Thin Film Technology: Adhesion in Thin Film
  • Editorial
  • Vacuum Corner: Error, Uncertainty, and Experimental and Process Analysis, Part 1.
  • Plasma Technology: Pulsed Power for Sputtering and Biasing
  • Surface Preparation: "Glow Bars" for Plasma Cleaning

JANUARY 2004:

  • Thin Film Technology: Defects in Thin Film
  • Editorial
  • Vacuum Corner: Vacuum System Safety
  • Applications: Advanced Mirror Coatings
  • Materials Science: Polymers as Substrate Materials

DECEMBER 2003:

  • Thin Film Technology: Amorphous Semiconductor Thin Films, an Introduction
  • Editorial
  • Vacuum Technology: Gas Manifolds
  • Vacuum Corner: A Summary of the AVS International Symposium
  • Materials Science: Glass as a Substrate Material

NOVEMBER 2003:

  • Energy Efficiency 1: Automobiles
  • Editorial
  • Vacuum Corner: Calibration of Pressure Transducers
  • Surface Preparation: Cleaning Environment
  • Vacuum Evaporation: Evaporant Materials

OCTOBER 2003:

  • Thin Film Technologies: SVC 2004, ICMCTF 2004 and an Introduction to Solar Cells
  • Editorial
  • Vacuum Technology: Ideal Gas Law
  • Vacuum Corner: Analyzing Spectrometer Hydrocarbon Spectra
  • Surface Preparation: Pure and Ultrapure Water

SEPTEMBER 2003:

  • Thin Film Technologies: Photoactive Materials and Photoconductivity
  • Editorial
  • Surface Preparation: Plasma Cleaning
  • Vacuum Corner: Interpreting RGA Mass Spectra
  • Vacuum Technology: In-Line Processing Systems

AUGUST 2003:

  • Thin Film Technologies: Review of Conference on Functional Coatings and Surface Engineering
  • Editorial
  • Vacuum Corner: Mass Flow Controllers: A little history, a description of dictated changes, and present day status.
  • Surface Preparation: Basecoats for Vacuum Coating
  • Atomistic Film Growth and Resulting Film Properties: Topcoats and Postdeposition Processing

JULY 2003:

  • Thin Film Technologies: SVC 2003 Technical Conference Summary
  • Editorial
  • Vacuum Corner: Gas Admission Systems
  • Vacuum Technology: Purchasing and Characterizing Vacuum Deposition Systems
  • Materials Science: Crystalline Structure by Diffraction Techniques

JUNE 2003:

  • Thin Film Technologies: Smart Materials II
  • Editorial
  • Vacuum Corner: Quartz Crystal Film Thickness Monitor Basics, Operation and Experimental Tool
  • Plasma Technology: Vacuum Gauges for the Plasma Environment
  • Surface and Film Characterization: X-Ray Photoelectron Spectroscopy (XPS)

MAY 2003:

  • Thin Film Technologies: Smart Materials 1
  • Editorial
  • Vacuum Corner: Vacuum: at the Frontier of Space
  • Surface Preparation: In Situ Cleaning
  • Sputter Deposition: Sputtering Targets

APRIL 2003:

  • Thin Film Technologies: Large Area Vacuum Deposited Coatings
  • Editorial
  • Vacuum Corner: Variable Valves/Leaks
  • Applications: Metallic Thin Film Electrical Conductors
  • Surface and Film Characterization: Auger Electron Spectroscopy (AES)

MARCH 2003:

  • Thin Film Technologies: Spring Technical Conferences
  • Editorial
  • Vacuum Corner: Dial V for Vacuum
  • Introduction: Patents and Copyrights
  • Thin Film Technologies: Optical Characterization of Optical Coatings
  • Surface Preparation: Cleaning with CO_2

FEBRUARY 2003:

  • Thin Film Technologies: Composite Thin Films
  • Editorial
  • Vacuum Corner: Outgassing and Desorption
  • Vacuum Evaporation: Deposition-Rate Monitors
  • Vacuum Technology: Vacuum Gauging

JANUARY 2003:

  • Thin Film Technologies: Optical Properties of Non-Metal Thin Films
  • Editorial
  • Plasma Technology: Ion (Plasma) Guns
  • Vacuum Technology: Turbomolecular Vacuum Pumps
  • Vacuum Corner: Vacuum Vessel Fabrication

DECEMBER 2002:

  • Editorial
  • Thin Film Technologies: Thin Film Fluorides
  • Vacuum Corner: Summary of the 49th American Vacuum Society Symposium
  • Surface Preparation: Substrates for Tribological Coatings
  • Applications: Vacuum Web (Roll) Coating

NOVEMBER 2002:

  • Editorial
  • Thin Film Technologies: Optical Characterization of Optical Coatings
  • Vacuum Corner: Movement in Vacuum
  • Surface Preparation: Enclosed and Closed-Loop Cleaning Systems
  • Vacuum Technology: Oil Contamination from Oil-Containing Mechanical Pumps

OCTOBER 2002:

  • Thin Film Technologies: Engineered Photonic Materials
  • Editorial
  • Vacuum Corner: Mass Spectrometer Basics and Operation
  • Surface Preparation: Surface Energy, Wetting Agents, and Surfactants
  • Applications: Thermal Control Coatings

SEPTEMBER 2002:

  • Thin Film Technologies: Calls to Action
  • Editorial
  • Vacuum Corner: Keeping Your Room Clean, I
  • Vacuum Evaporation: Substrate Fixturing and Fixture Cleaning
  • Introduction: Process Flow Chart
  • Introduccion: Diagramade Flujo del Proceso

AUGUST 2002:

  • Thin Film Technologies: Thin Film Magnetic Materials and Magnetoresistance Effects
  • Editorial
  • Vacuum Corner: How Low Must You Go
  • Surface Preparation: External Cleaning
  • Surface and Film Characterization: Film Adhesion and "Deadhesion"
  • Caracterizacion de Pelicula y Superficie: Adhesion y "Desprendimiento" de la Pelicula

JULY 2002:

  • Thin Film Technologies: Nanotechnology
  • Editorial
  • Vacuum Corner: Gas Permeation and Outgassing
  • Surface and Film Characterization: Characterization of PVD Films
  • Introduction: Physical Vapor Deposition (PVD) Processes

JUNE 2002:

  • Thin Film Technologies: Superlattices and Quantum Wells
  • Editorial
  • Materials Science: Atomic Arrangement
  • Vacuum Corner: Vacuum in a Bottle
  • Surface and Film Characterization: Infrared (IR) Spectroscopy

MAY 2002:

  • Thin Film Technologies: Thin Film Semiconductors
  • Editorial
  • Plasma Technology: Reactive Plasma Stripping
  • Vacuum Corner: Picking the Right Pump and the Sizing and Matching of Pumps
  • Vacuum Technology: Mass Flow Control of Gases

APRIL 2002:

  • Thin Film Technology: Thin Metal Films: Electrical Properties
  • Editorial
  • Vacuum Corner: Remembering the 5 Second Rule
  • Surface and Film Characterization: Rutherford Backscattering Spectrometry (RBS)
  • Product Roundup: Deposition Monitor and Control Selection Guide

MARCH 2002:

FEBRUARY 2002:

  • Vacuum Corner: Know Thy Vacuum
  • Thin Film Technology: Two Meetings You Don't Want to Miss
  • Applications: Atomistic Film Growth and Resulting Film Properties: Film Formation by Atomistic Deposition - I
  • Editorial
  • Applications: Atomistic Film Growth and Resulting Film Properties: Film Formation by Atomistic Deposition - II

JANUARY 2002:

  • Vacuum Corner: Removal of Water Vapor in the Process Environment
  • Editorial
  • Thin Film Technology: Changing the Properties of Thin Films: Composition
  • Applications: Materials Science: Alloys, Compounds and Dispersions
  • Applications: Surface Preparation: Rinsing and Drying
  • Applications: Preparacion de la Superficie: Lavado y Secado

DECEMBER 2001:

  • Thin Film Technology: Thin Film Polymers and Organic Materials I: Introduction and Optical Properties
  • Vacuum Corner: Water: The Scourge of Vacuum Systems
  • Editorial
  • Applications: Antireflection (AR) Coatings
  • Applications: Atomistic Film Growth and Resulting Film Properties: Ultrafine Particles

NOVEMBER 2001:

  • Thin Film Technology: Eye Catching Coatings
  • Editorial
  • Vacuum Corner: The Ideal Vacuum
  • Applications: Atomistic Film Growth and Resulting Film Properties: Residual Film Stress
  • Applications: Low-Pressure CVD and PECVD: Plasma Enhanced Chemical Vapor Deposition (PECVD)

OCTOBER 2001:

  • Thin Film Technology: Thermal Control Using Thin Film Coatings
  • Editorial
  • Vacuum Technology: Cryopumps, Sorption Pumps, and Cryopanels
  • Tecnologia de Vacio: Criobombas, Bombas de Absorcion, Criopanele
  • Vacuum Technology: Fixtures and Tooling
  • Vacuum Corner: Electrostatic Charge in the Vacuum Coating Industry

SEPTEMBER 2001:

  • Thin Film Technology: Energy Storage: Miniature Thin Film Batteries Make It Big
  • Editorial
  • Surface Preparation: Cleaning Environment
  • Materials Science: Polymers as Substrate Materials

AUGUST 2001:

  • Vacuum Corner: Cleaning of Parts for Use in Vacuum
  • Editorial
  • Applications: Reflecting Coatings
  • Thin Film Technology: Thin Films in Energy Conversion
  • Surface and Film Characterization: Scanning Laser Confocal Optical Microscopy

JULY 2001:

  • Editorial
  • Vacuum Corner: "Much Ado About Nothing"
  • Thin Film Technology: 2001 SVC Techcon Review
  • Safety: Safety Aspects of Cleaning
  • Vacuum Technology: Oil Diffusion Pumps
  • Tecnologia de Vacio: Bombas de Difusion de Aceite Guias Educativas de Tecnologia de Deposicion as Vacio
  • History of Vacuum Coating: Sputter Deposition: Early Efforts

JUNE 2001:

  • Editorial
  • Kimo's Corner: More on All-Metal Vacuum Seals
  • Vacuum Technology: Steady State and Transient Conductance
  • Thin Film Technology: Thin Film Energy Applications: Switchable Coatings for Solar Control
  • Atomistic Film Growth & Resulting Film Properties: Pinholes

MARCH/APRIL 2000:

  • Editorial: Mission Essential
  • Vacuum Technology: In-Line Processing Systems
  • Kimo's Corner: What Price O-Rings? Just Time!
  • Processing Basics: Process Flow Chart for PVD


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