Re-examination of the Scaling of Homogeneous Nucleation Rates for Water,
B. N. Hale, Nucleation and Atmospheric Aerosols 2017 , Ed. H. Vekamaki et al., Helsinki, Finland, (2017).

Monte Carlo Simulations of Growth/Decay Rate Constant Ratios for Small Methanol Clusters: Application to Nucleation Data Analysis,
B. N. Hale, G. Wilemski and A. Viets, Nucleation and Atmospheric Aerosols 2013 , Ed. P. J. DeMott and C. D. ODowd, Ft. Collins, CO. USA, p 27 (2013)

Scaled Vapor-to-Liquid Nucleation in a Lennard-Jones System,
B. N. Hale and M. Thomason, Phys. Rev. Letters 105, 046101 (2010)

Comparison of Small Cluster Effects in Argon Lennard-Jones Nucleation,
B. N. Hale and G. Wilemski, Nucleation and Atmospheric Aerosols 2009 , Ed. J. Smolik and C. O'Dowd, University of Prague, p.593 (2009)

A Study of Scaled Nucleation in a Lennard-Jones System,
B. N. Hale and J. Kiefer, Nucleation and Atmospheric Aerosols 2007 , Ed. C. O'Dowd and P. Wagner, Springer, London, pp 149-152 (2007)

Temperature dependence of homogeneous nucleation rates for water: Near equivalence of the empirical fit of Wolk and Strey, and the scaled nucleation model,
B. N. Hale, J. Chem. Phys. 122, 204509 (2005)

Scaling of the Nucleation Rate and a Monte Carlo Discrete Sum Approach to Water Cluster Free Energies of Formation,
B. N. Hale, and D. J. DiMattio, J. Phys. Chem. B 108, 19780 (2004)

Computer Simulations, Nucleation Rate Predictions and Scaling,
B. N. Hale, Nucleation and Atmospheric Aerosols 2004 , Ed. M. Kasahara and M. Kulmala, Kyoto University Press, Kyoto, Japan (2004) pp 3-13

Monte Carlo Simulations of Small Sulfulric Acid-Water Clusters,
S. M. Kathmann and B. N. Hale, J. Phys. Chem. B 105, 11719 (2001)

Effective Surface Tension for Small Binary Clusters by Monte Carlo Simulation,
J. Kiefer and B. N. Hale, Nucleation and Atmospheric Aerosols 2000, Ed. B. N. Hale and M. Kulmala, AIP Press, Melville, NY (2000), pp. 260-263.

A Monte Carlo Discrete Sum (MCDS) Nucleation Rate Model for Water,
B. N. Hale and D. J. DiMattio, Nucleation and Atmospheric Aerosols 2000, Ed. B. N. Hale and M. Kulmala, AIP Press, Melville, NY (2000), pp. 31-34.

Calculation of Scaled Nucleation Rates for Water Using Monte Carlo Generated Cluster Free Energy Differences
David J. DiMattio, Ph.D Dissertation, University of Missouri-Rolla (1999).

A Scaled Nucleation Model for Ideal Binary Systems
Barbara N. Hale and Gerald Wilemski, Chem. Phys. Letters 305, 263 (1999).

Monte Carlo Studies of Water/Ice Adsorbed on Model AgI: Effects of Lattice Shift,
B. N. Hale and D. J. DiMattio, Nucleation and Atmospheric Aerosols, Ed. M. Kulmala and P. Wagner, Pergamon, NY (1996), p 349.

Monte Carlo Simulations of Small H2SO4-H2O Clusters,
B. N. Hale and S. M. Kathmann, Nucleation and Atmospheric Aerosols, Ed. M. Kulmala and P. Wagner, Pergamon, NY (1996), p 30.

Monte Carlo Simulations of Effective Surface Tension for Small Clusters,
Barbara N. Hale, Aust. J. Phys. 49, 425 (1996)

Monte Carlo simulations of water-ice layers on a model silver iodide substrate: A comparison with bulk ice systems,
James H. Taylor and Barbara N. Hale, Phys. Rev. B 47, 9732 (1993)

The Scaling of Nucleation Rates,
Barbara N. Hale, Metallurgical Transactions 23A, 1863(1992)

Monte Carlo study of a simple model bulk-ice-Ih system: P-T melting behavior at constant volume,
K. Han and B. N. Hale, Phys. Rev. B 45, 29 (1992)

Comment on vapor phase homogeneous nucleation of CH3CN and the scaling law for onset supersaturation ratios,
B. N. Hale and B. Kelly, Chem. Phys. Letters 189, 100 (1992)

Analysis of experimental nucleation data for Silver and SiO using scaled nucleation theory,
B. N. Hale, P. Kemper and J. A. Nuth, J. Chem. Phys. 91, 4314 (1989)

Scaled Models for Nucleation,
B. N. Hale, Lecture Notes in Physics 309, 323 (1988)

Application of a scaled homogeneous nucleation-rate formalism to experimental data at T << Tc,
Barbara N. Hale, Phys. Rev. A 33, 4156 (1986)

Structural studies of low temperature ice Ih using a central force potential model,
P. W. Deutsch, B. N. Hale, R. C. Ward and D. A. Reago, J. Chem. Phys. 78, 5103 (1983)

A study of the critical cluster size for water monolayer clusters on a model AgI basal substrate,
B. N. Hale, R. C. Ward and S. Terrazas, J. Chem. Phys. 78, 420 (1983)

Monte Carlo studies of water monolayer clusters on substrates: Hexagonal AgI,
R. C. Ward, B. N. Hale, and J. M. Holdman, J. Chem. Phys. 77, 3198 (1982)

A Monte Carlo Method for Approximating Critical Cluster Size in the Nucleation of Model Systems,
Barbara N. Hale and Richard C. Ward, J. Stat. Phys. 28, 487 (1982)

The water monomer on the prism face of ice and above a four layer basal face ledge: an effective pair potential model,
B. N. Hale, J. Kiefer and C. A. Ward, J. Chem. Phys. 75, 1991 (1981)

Studies of H2O on Beta AgI surfaces: An effective pair potential model,
B. N. Hale and J. Kiefer , J. Chem. Phys. 73, 923 (1980)

The water monomer on the basal plane of ice Ih: an effective pair, central force potential model of the static interaction,
J. Kiefer and B. N. Hale, J. Chem. Phys. 67, 9203 (1977)

Molecular model for ice clusters in a supersaturated vapor,
B. N. Hale and P. L. M. Plummer, J. Chem. Phys. 61, 4012 (1974)

Molecular Model for Prenucleation Water Clusters,
P. L. M. Plummer and B. N. Hale, J. Chem. Phys. 56, 4329 (1972)

Other online papers,