Thermodynamic studies of one and two dimensional Neon adsorbed on single walled carbon nanotube bundles

In this study we report heat capacity measurements between 2 and 20 K for films of Neon adsorbed on single-walled closed end carbon nanotube bundles. The heat capacity of the adsorbed layer is measured from 1/60$^{th}$ (2 scc) of a monolayer to $\sim $ 1.2 monolayer (155 scc). The heat capacity is used to identify if the phases are solid, liquid or gaseous. The heat capacity at a fixed coverage (less than 12 scc) as a function of temperature reveals some agreement with the values predicted from a 1D solid model by Kostov et.al \textbf{(}Phys. Rev. B \textbf{68, }245403 (2003)\textbf{)} between 2 and 4 K. For coverage higher than 24 scc, the heat capacity at low temperature shows a clear T$^{2}$ dependence. The calculated 2D Debye Temperatures are in the range of 50-60K and are in good agreement with what has been measured by G.B. Huff and J. G. Dash \textbf{(}JLTP\textbf{ 24, }1 / 2, 1976\textbf{) }for Neon adsorbed on Grafoil. The specific heat values are greater than 2 for temperatures greater than $\sim $ 14 K. There is no evidence of first order phase transition due to melting.