[1] L. L. A. Adams, ”Dynamical Crossover Regime during Evanescent Wave Amplification”, Europhys. Letters 104, 27009, (2013).
[2] L. L. A. Adams, Thomas E. Kodger, Shin-Hyun Kim, Ho Cheng Shum, Thomas Franke and David A. Weitz, “Single Step Emulsification for the Generation of Multi-Component Double Emulsions”, Soft Matter 8, 10719 (2012).
[6] L. L. A. Adams, “Hexagonal spiral growth in the absence of a substrate”, Phys. Rev. E, 82, 031604 (2010).
[7] L. L. A. Adams, W. R. Sweeney and H. M. Jaeger,” The growth of cadmium nanocrystals”, J. Phys. Chem C
114, 6304 (2010).
[8] L. L. A. Adams, B. W. Lang, Yu Chen and A. M. Goldman, “Signatures of Random Matrix Theory in the
Discrete Energy Spectra of Subnanosize Metallic Clusters”, Phys. Rev. B 75, 205107(2007).
[9] L. L. A. Adams, B. W. Lang and A. M. Goldman, “Spectroscopic Evidence of Discrete Energy Levels in
Nanosize Clusters of Metal Atoms Using a Low Temperature STM”, AIP Low Temp Phys: Conf. Proc. 850,
1413 (2006).
[10] L. L. A. Adams, B. W. Lang and A. M. Goldman, “Observation of discrete energy levels in a
quantum confined system”, Phys. Rev. Lett. 95, 146804 (2005).
[11] L. L. A. Adams and A. M. Goldman, “An ultrahigh-vacuum low-temperature scanning tunneling microscope
with ultrahigh vacuum deposition capability”, Rev. Sci. Instrum. 76, 063907 (2005).
[12] L. L. A. Adams, Klaus Halterman, Oriol T. Valls and A. M. Goldman, “Two phase regime in the magnetic
field- temperature phase diagram of a type II superconductor”, Physica C 400, 171 (2004).
[13] L. L. A. Adams, Cathyrn Christiansen and A. M. Goldman, “Demonstration of planar tunneling through
solid inert gas barriers”, Appl. Phys. Lett. 83, 4029 (2003).