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  1. Comment on “Advanced field emission measurement techniques for research on modern cold cathode materials and their applications for transmission-type x-ray sources” [Rev. Sci. Instrum. 91, 083906 (2020)]

    Article • Review of Scientific Instruments, October 2020, American Institute of Physics

    EurIng Dr Richard G. Forbes

  2. Comments on the continuing widespread and unnecessary use of a defective emission equation in field emission related literature

    Article • Journal of Applied Physics, December 2019, American Institute of Physics

    EurIng Dr Richard G. Forbes

  3. Comments on the voltage scaling of field electron emission current-voltage characteristics

    Article • July 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  4. Publication of apparently unreliable book on fowler-nordheim field emission

    Article • July 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  5. Alternative derivation of the Ruska/Langmuir reduced-brightness/spot-blurring formula, and some related comments

    Article • July 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  6. Progress in establishing field electron emission science

    Article • June 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  7. Development of an integrated theory of field emitter optics

    Article • June 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  8. Comments on the voltage scaling of field electron emission current-voltage characteristics

    Article • June 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  9. Use of a spreadsheet to test for lack of field emission orthodoxy

    Article • June 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  10. Conceptual error in the international definition of voltage, and implications for theories of patch fields and electron emission

    Article • June 2014, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  11. Atom-Probe Tomography

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  12. Data Analysis

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  13. Data Reconstruction

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  14. Introduction to Atom-Probe Tomography

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  15. The Local Electrode Atom Probe

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  16. Introduction to the Physics of Field Ion Emitters

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  17. Field Evaporation and Related Topics

    Article • January 2014, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  18. Progress with developing theory for fowler-nordheim plot interpretation

    Article • July 2013, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  19. Use of a spreadsheet to test for lack of field emission orthodoxy

    Article • July 2013, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  20. The effect of barrier form on slope and intercept correction factors for curved emitters: Development of some enabling theory

    Article • July 2013, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  21. Conceptual error in the definition of the term “voltage” in the International Standard for Electromagnetism, and related implications for the theory of patch fields and electron emission

    Article • July 2013, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  22. Influence of barrier form on Fowler–Nordheim plot analysis

    Article • Journal of Vacuum Science & Technology B Microelectronics and Nanometer Structures Processing Measurement and Phenomena, January 2013, American Vacuum Society

    EurIng Dr Richard G. Forbes

  23. Improved approach to Fowler–Nordheim plot analysis

    Article • Journal of Vacuum Science & Technology B Microelectronics and Nanometer Structures Processing Measurement and Phenomena, January 2013, American Vacuum Society

    EurIng Dr Richard G. Forbes

  24. Illustrating field emission theory by using Lauritsen plots of transmission probability and barrier strength

    Article • Journal of Vacuum Science & Technology B Microelectronics and Nanometer Structures Processing Measurement and Phenomena, January 2013, American Vacuum Society

    EurIng Dr Richard G. Forbes

  25. Resolving power of the field electron and field ion imaging processes

    Article • July 2012, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  26. Recent progress in reshaping the theory of orthodox field electron emission

    Article • July 2012, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  27. New type of intercept correction factor for Fowler-Nordheim plots

    Article • July 2012, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  28. Field enhancement factor for a tall closely-spaced array of identical conducting posts, and implications for fowler-nordheim theory

    Article • July 2012, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  29. Illustrating field emission theory by using plots of transmission probability and barrier strength

    Article • July 2012, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  30. Scaled form for kernel Fowler-Nordheim-type expression based on the Schottky-Nordheim barrier, and test for orthodoxy of field electron emission

    Article • July 2012, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  31. Comment on ‘Metallic nanowire–graphene hybrid nanostructures for highly flexible field emission devices’

    Article • Nanotechnology, June 2012, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  32. Screened field enhancement factor for a tall closely spaced array of identical conducting posts and implications for Fowler-Nordheim-type equations

    Article • Journal of Applied Physics, May 2012, American Institute of Physics

    EurIng Dr Richard G. Forbes

  33. Extraction of emission parameters for large-area field emitters, using a technically complete Fowler–Nordheim-type equation

    Article • Nanotechnology, February 2012, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  34. FIB-SEM

    Article • January 2012, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  35. Field Electron Emission from Nanomaterials

    Article • January 2012, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  36. P2–32: Accurate calculation of the Schottky-Nordheim barrier functions

    Article • July 2010, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  37. P2–31: Simple derivation of formula for Sommerfeld supply density

    Article • July 2010, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  38. P1–26: Influence of tip curvature on field electron emission characteristics

    Article • July 2010, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  39. 5.4: Analysis of experimental field emission current-voltage characteristics (especially those from carbon nanotubes)

    Article • July 2010, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  40. P1–28: Use, in Fowler-Nordheim-type equations, of accurate solution of the Schrödinger equation for the Schottky-Nordheim barrier

    Article • July 2010, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  41. P1–27: Influence of improved surface potential-energy model on CFE characteristics and related slope and intercept correction factors

    Article • July 2010, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  42. Thin-slab model for field electron emission

    Article • January 2010, American Vacuum Society

    EurIng Dr Richard G. Forbes

  43. Simple derivation of the formula for Sommerfeld supply density used in electron-emission physics and limitations on its use

    Article • January 2010, American Vacuum Society

    EurIng Dr Richard G. Forbes

  44. Comparison of approximations for the principal Schottky–Nordheim barrier function v(f), and comments on Fowler–Nordheim plots

    Article • January 2010, American Vacuum Society

    EurIng Dr Richard G. Forbes

  45. Comparison of approximations for the principal Schottky-Nordheim barrier function v(f)

    Article • July 2009, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  46. Theories of field emission from graphene based on thin-slab and atomic-array models

    Article • July 2009, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  47. Use of the concept “area efficiency of emission” in equations describing field emission from large-area electron sources

    Article • July 2009, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  48. Proposal to replace fowler-nordheim plots by millikan-lauritsen plots as the basic method of analysing experimental field emission data

    Article • July 2009, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  49. Use of Millikan–Lauritsen plots, rather than Fowler–Nordheim plots, to analyze field emission current-voltage data

    Article • Journal of Applied Physics, June 2009, American Institute of Physics

    EurIng Dr Richard G. Forbes

  50. Use of the concept “area efficiency of emission” in equations describing field emission from large-area electron sources

    Article • January 2009, American Vacuum Society

    EurIng Dr Richard G. Forbes

  51. Liquid Metal Ion Sources

    Article • October 2008, Taylor & Francis

    EurIng Dr Richard G. Forbes

  52. Gas Field Ionization Sources

    Article • October 2008, Taylor & Francis

    EurIng Dr Richard G. Forbes

  53. Exact analysis of surface field reduction due to field-emitted vacuum space charge, in parallel-plane geometry, using simple dimensionless equations

    Article • Journal of Applied Physics, October 2008, American Institute of Physics

    EurIng Dr Richard G. Forbes

  54. The formal derivation of an exact series expansion for the principal Schottky–Nordheim barrier function v , using the Gauss hypergeometric differential equation

    Article • Journal of Physics A Mathematical and Theoretical, August 2008, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  55. The roles of apex dipoles and field penetration in the physics of charged, field emitting, single-walled carbon nanotubes

    Article • Journal of Applied Physics, July 2008, American Institute of Physics

    EurIng Dr Richard G. Forbes

  56. On the need for a tunneling pre-factor in Fowler–Nordheim tunneling theory

    Article • Journal of Applied Physics, June 2008, American Institute of Physics

    EurIng Dr Richard G. Forbes

  57. Call for experimental test of a revised mathematical form for empirical field emission current-voltage characteristics

    Article • Applied Physics Letters, May 2008, American Institute of Physics

    EurIng Dr Richard G. Forbes

  58. Appendix to “Coulomb interactions in Ga LMIS” by Radlička and Lencová

    Article • Ultramicroscopy, April 2008, Elsevier

    EurIng Dr Richard G. Forbes

  59. Physics of generalized Fowler-Nordheim-type equations

    Article • January 2008, American Vacuum Society

    EurIng Dr Richard G. Forbes

  60. Description of field emission current/voltage characteristics in terms of scaled barrier field values (f-values)

    Article • January 2008, American Vacuum Society

    EurIng Dr Richard G. Forbes

  61. Reformulation of the standard theory of Fowler–Nordheim tunnelling and cold field electron emission

    Article • Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences, August 2007, Royal Society Publishing

    EurIng Dr Richard G. Forbes

  62. 49th International Field Emission Symposium

    Article • Surface and Interface Analysis, January 2007, Wiley

    Professor John P Xanthakis, EurIng Dr Richard G. Forbes

  63. Field penetration into amorphous‐carbon films: consequences for field‐induced electron emission

    Article • Surface and Interface Analysis, January 2007, Wiley

    Professor John P Xanthakis, EurIng Dr Richard G. Forbes

  64. The physics of generalized Fowler-Nordheim-type equations

    Article • January 2007, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  65. The International Field Emission Society

    Article • Surface and Interface Analysis, January 2007, Wiley

    EurIng Dr Richard G. Forbes

  66. Analysis of planar field-stimulated vacuum space-charge using a dimensionless equation

    Article • January 2007, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  67. Tutorial lecture on the theory of cold field electron emission

    Article • January 2007, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  68. Exact mathematical solution for the principal field emission correction function υ used in Standard Fowler-Nordheim theory

    Article • January 2007, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  69. Simple good approximations for the special elliptic functions in standard Fowler-Nordheim tunneling theory for a Schottky-Nordheim barrier

    Article • Applied Physics Letters, September 2006, American Institute of Physics

    EurIng Dr Richard G. Forbes

  70. Comments on the JWKB Approximation

    Article • July 2006, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  71. Extraction of Experimental ZERO-Q Evaporation Field Values

    Article • July 2006, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  72. Tutorial Lecture on Field Electron Emission Theory

    Article • July 2006, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  73. Another Look at the Classical Calculation of Evaporation Fields

    Article • July 2006, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  74. Forbidden Ions in Field Evaporation

    Article • July 2006, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  75. Analytical Approximations for the Special Elliptic Functions of Standard Fowler-Nordheim Theory

    Article • July 2006, Institute of Electrical & Electronics Engineers (IEEE)

    EurIng Dr Richard G. Forbes

  76. Social networks generate interest in computer science

    Article • ACM SIGCSE Bulletin, March 2006, ACM (Association for Computing Machinery)

    EurIng Dr Richard G. Forbes

  77. Preface

    Article • Surface and Interface Analysis, May 2004, Wiley

    EurIng Dr Richard G. Forbes

  78. Use of energy-space diagrams in free-electron models of field electron emission

    Article • Surface and Interface Analysis, May 2004, Wiley

    EurIng Dr Richard G. Forbes

  79. 48th International Field Emission Symposium(IFES) & 15th International Vacuum Microelectronics Conference(IVMC)

    Article • Surface and Interface Analysis, May 2004, Wiley

    EurIng Dr Richard G. Forbes

  80. Extraction of emission area from Fowler–Nordheim plots

    Article • Journal of Vacuum Science & Technology B Microelectronics Processing and Phenomena, January 2004, American Vacuum Society

    EurIng Dr Richard G. Forbes

  81. Field ion emission: the effect of electrostatic field energy on the prediction of evaporation field and charge state

    Article • Journal of Physics D Applied Physics, August 2003, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  82. Field electron and ion emission from charged surfaces: a strategic historical review of theoretical concepts

    Article • Ultramicroscopy, May 2003, Elsevier

    EurIng Dr Richard G. Forbes

  83. Some comments on models for field enhancement

    Article • Ultramicroscopy, May 2003, Elsevier

    EurIng Dr Richard G. Forbes

  84. Fundamental new results in the energetics and thermodynamics of charged metal surfaces

    Article • Ultramicroscopy, October 2001, Elsevier

    EurIng Dr Richard G. Forbes

  85. Field-induced electron emission from electrically nanostructured heterogeneous (ENH) materials

    Article • Ultramicroscopy, October 2001, Elsevier

    EurIng Dr Richard G. Forbes

  86. New results in the theory of Fowler–Nordheim plots and the modelling of hemi-ellipsoidal emitters

    Article • Ultramicroscopy, October 2001, Elsevier

    EurIng Dr Richard G. Forbes, Kevin Jensen

  87. Low-macroscopic-field electron emission from carbon films and other electrically nanostructured heterogeneous materials: hypotheses about emission mechanism

    Article • Solid-State Electronics, June 2001, Elsevier

    EurIng Dr Richard G. Forbes

  88. Theory and Modelling of Field-Induced Electron Emission

    Article • MRS Proceedings, January 2000, Cambridge University Press

    EurIng Dr Richard G. Forbes

  89. LIQUID-METAL ION SOURCES AND ELECTROSPRAYS OPERATING IN CONE-JET MODE: SOME THEORETICAL COMPARISONS AND COMMENTS

    Article • Journal of Aerosol Science, January 2000, Elsevier

    EurIng Dr Richard G. Forbes

  90. Refining the application of Fowler–Nordheim theory

    Article • Ultramicroscopy, September 1999, Elsevier

    EurIng Dr Richard G. Forbes

  91. The electrical surface as centroid of the surface-induced charge

    Article • Ultramicroscopy, September 1999, Elsevier

    EurIng Dr Richard G. Forbes

  92. ELECTROSPRAYS AND LIQUID-METAL ION SOURCES—SOME THEORETICAL SIMILARITIES AND DIFFERENCES

    Article • Journal of Aerosol Science, August 1999, Elsevier

    EurIng Dr Richard G. Forbes

  93. Field emission: New theory for the derivation of emission area from a Fowler–Nordheim plot

    Article • Journal of Vacuum Science & Technology B Microelectronics Processing and Phenomena, January 1999, American Vacuum Society

    EurIng Dr Richard G. Forbes

  94. Use of a spreadsheet for Fowler–Nordheim equation calculations

    Article • Journal of Vacuum Science & Technology B Microelectronics Processing and Phenomena, January 1999, American Vacuum Society

    EurIng Dr Richard G. Forbes

  95. Calculation of the electrical-surface (image-plane) position for aluminium

    Article • Ultramicroscopy, June 1998, Elsevier

    EurIng Dr Richard G. Forbes

  96. Controlling mechanisms for field-induced electron emission from diamond-like carbon films

    Article • Ultramicroscopy, June 1998, Elsevier

    EurIng Dr Richard G. Forbes

  97. On the Problem of Establishing the Location of the Electrical Surface (Image Plane) for a Tungsten Field Emitter

    Article • Zeitschrift für Physikalische Chemie, January 1997, De Gruyter

    EurIng Dr Richard G. Forbes

  98. Field adsorption of helium and neon on metals: an integrated theory

    Article • Surface Science, April 1996, Elsevier

    EurIng Dr Richard G. Forbes

  99. Field-ion imaging old and new

    Article • Applied Surface Science, March 1996, Elsevier

    EurIng Dr Richard G. Forbes

  100. On the theory of helium field adsorption

    Article • Applied Surface Science, March 1996, Elsevier

    EurIng Dr Richard G. Forbes

  101. Some comments on the simultaneous desorption of 3He and 4He

    Article • Applied Surface Science, March 1996, Elsevier

    EurIng Dr Richard G. Forbes

  102. Field evaporation theory: a review of basic ideas

    Article • Applied Surface Science, March 1995, Elsevier

    EurIng Dr Richard G. Forbes

  103. Modelling the link between emission current and LMIS cusp length

    Article • Applied Surface Science, March 1995, Elsevier

    EurIng Dr Richard G. Forbes

  104. New understandings in the theory of liquid-metal ion sources

    Article • Applied Surface Science, March 1995, Elsevier

    EurIng Dr Richard G. Forbes

  105. A comment on the relationship between emission field and tip radius for a liquid-metal ion source

    Article • Applied Surface Science, April 1993, Elsevier

    EurIng Dr Richard G. Forbes

  106. Liquid-metal ion source theory: electrohydrodynamics and emitter shape

    Article • Surface Science, April 1992, Elsevier

    EurIng Dr Richard G. Forbes

  107. An analytical calculation of LMIS cusp length

    Article • Surface Science, April 1992, Elsevier

    EurIng Dr Richard G. Forbes

  108. VLSI—Circuits and Systems in Silicon, Edited by A. BROWN (New York: McGraw-Hill, 1991), 448 pp., £49.95 (hardcover). ISBN 0 07 707221 9.

    Article • International Journal of Electronics, February 1992, Taylor & Francis

    EurIng Dr Richard G. Forbes

  109. Further comments on field adsorption

    Article • Surface Science, April 1991, Elsevier

    EurIng Dr Richard G. Forbes

  110. Calculation of the shape of the liquid cone in a liquid-metal ion source

    Article • Surface Science, April 1991, Elsevier

    EurIng Dr Richard G. Forbes

  111. Book review

    Article • International Journal of Electronics, March 1990, Taylor & Francis

    EurIng Dr Richard G. Forbes

  112. What do We Mean by Work Function” ?

    Article • January 1990, Springer Science + Business Media

    EurIng Dr Richard G. Forbes

  113. On charged-surface models and the origin of field adsorption

    Article • Surface Science, December 1989, Elsevier

    EurIng Dr Richard G. Forbes

  114. On charged-surface models and the origin of field adsorption

    Article • Surface Science Letters, December 1989, Elsevier

    EurIng Dr Richard G. Forbes

  115. Modelling of liquid-metal ion sources

    Article • Vacuum, January 1989, Elsevier

    EurIng Dr Richard G. Forbes

  116. Derivation of bonding distance and vibration frequency from field evaporation experiments

    Article • Surface Science, June 1984, Elsevier

    EurIng Dr Richard G. Forbes

  117. Derivation of bonding distance and vibration frequency from field evaporation experiments

    Article • Surface Science Letters, June 1984, Elsevier

    EurIng Dr Richard G. Forbes

  118. The temperature dependence of evaporation field for Gomer-type field-evaporation mechanisms

    Article • Surface Science, November 1982, Elsevier

    EurIng Dr Richard G. Forbes

  119. A fresh look at the electric-field dependence of surface-atom binding energy

    Article • Surface Science, September 1982, Elsevier

    EurIng Dr Richard G. Forbes

  120. New activation-energy formulae for charge-exchange type mechanisms of field evaporation

    Article • Surface Science, April 1982, Elsevier

    EurIng Dr Richard G. Forbes

  121. New activation-energy formulae for charge-exchange type mechanisms of field evaporation

    Article • Surface Science Letters, April 1982, Elsevier

    EurIng Dr Richard G. Forbes

  122. A new formula for predicting low‐temperature evaporation field

    Article • Applied Physics Letters, February 1982, American Institute of Physics

    EurIng Dr Richard G. Forbes

  123. Field evaporation theory: A re-analysis of published field sensitivity data

    Article • Surface Science, February 1982, Elsevier

    EurIng Dr Richard G. Forbes

  124. Progress with the theory of noble-gas field adsorption

    Article • Vacuum, October 1981, Elsevier

    EurIng Dr Richard G. Forbes

  125. The influence of hyperpolarisability and field-gradient polarisability on field adsorption binding energies for He on W(111)

    Article • Surface Science, July 1981, Elsevier

    EurIng Dr Richard G. Forbes

  126. Charge hopping and charge draining: Two mechanisms of field desorption

    Article • Surface Science, January 1981, Elsevier

    EurIng Dr Richard G. Forbes

  127. Derivation of surface‐atom polarizability from field‐ion energy deficits

    Article • Applied Physics Letters, May 1980, American Institute of Physics

    EurIng Dr Richard G. Forbes

  128. An array model for the field adsorption of helium on tungsten (111)

    Article • Surface Science, March 1980, Elsevier

    EurIng Dr Richard G. Forbes

  129. Wave-mechanical theory of field ionization and field-ion energy distributions

    Article • Progress in Surface Science, January 1980, Elsevier

    EurIng Dr Richard G. Forbes

  130. Conceptual errors in the theory of field adsorption

    Article • Surface Science, August 1979, Elsevier

    EurIng Dr Richard G. Forbes

  131. The influence of depolarisation on surface-atom polarisation energy

    Article • Surface Science, April 1979, Elsevier

    EurIng Dr Richard G. Forbes

  132. A basic wave-mechanical theory of field-ion energy distributions

    Article • Ultramicroscopy, January 1979, Elsevier

    EurIng Dr Richard G. Forbes

  133. A discrete-charge model of a field-ion emitter surface

    Article • Ultramicroscopy, January 1979, Elsevier

    EurIng Dr Richard G. Forbes

  134. Field adsorption — The monopole-dipole interaction

    Article • Surface Science, December 1978, Elsevier

    EurIng Dr Richard G. Forbes

  135. Amount of substance: an alternative proposal

    Article • Physics Education, July 1978, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  136. Field evaporation theory: The atomic-JUG formalism

    Article • Surface Science, January 1978, Elsevier

    EurIng Dr Richard G. Forbes

  137. More confusion over the Avogadro constant

    Article • Physics Education, January 1978, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  138. Confusion over the avogadro constant

    Article • Physics Education, July 1977, Institute of Physics Publishing

    EurIng Dr Richard G. Forbes

  139. Atomic polarisability values in the SI system

    Article • Surface Science, April 1977, Elsevier

    EurIng Dr Richard G. Forbes

  140. A generalised theory of standard field ion appearance energies

    Article • Surface Science, December 1976, Elsevier

    EurIng Dr Richard G. Forbes

  141. Comment on “surface plasmon excitation in field ion emission” by R. Brako and M. Šunjić

    Article • Surface Science, November 1976, Elsevier

    EurIng Dr Richard G. Forbes

  142. An alternative theoretical approach to field evaporation rate sensitivities

    Article • Surface Science, December 1974, Elsevier

    EurIng Dr Richard G. Forbes

  143. A theory of field-ion imaging: II. On the origin of site-current variations*

    Article • Journal of Microscopy, August 1972, Wiley

    EurIng Dr Richard G. Forbes

  144. A theory of field-ion imaging: I. A quasi-classical site-current formula

    Article • Journal of Microscopy, August 1972, Wiley

    EurIng Dr Richard G. Forbes

  145. Field-ion imaging theory: On the visibility of adsorbates

    Article • Surface Science, October 1971, Elsevier

    EurIng Dr Richard G. Forbes

  146. Field-ion Image Formation

    Article • Nature Physical Science, April 1971, Springer Science + Business Media

    EurIng Dr Richard G. Forbes