Optical Theorem and the Inversion of Cross Section Data for Atom Scattering from Defects on Surfaces

The information content and properties of the cross section for atom scattering from a defect on a flat surface are investigated. Using the Sudden approximation, a simple expression is obtained that relates the cross section to the underlying atom/defect interaction potential. An approximate inversion formula is given, that determines the shape function of the defect from the scattering data. Another inversion formula approximately determines the potential due to a weak corrugation in the case of substitutional disorder. An Optical Theorem, derived in the framework of the Sudden approximation, plays a central role in deriving the equations that conveniently relate the interaction potential to the cross section. Also essential for the result is the equivalence of the operational definition for the cross section for scattering by a defect, given by Poelsema and Comsa, and the formal definition from quantum scattering theory. This equivalence is established here. The inversion result is applied to determine the shape function of an Ag atom on Pt(111) from scattering data.Comment: 29 pages, 9 Postscript figures, more info available at http://www.fh.huji.ac.il/~dan

He Scattering from Random Adsorbates, Disordered Compact Islands and Fractal Submonolayers: Intensity Manifestations of Surface Disorder

A theoretical study is made on He scattering from three fundamental classes of disordered ad-layers: (a) Translationally random adsorbates, (b) disordered compact islands and (c) fractal submonolayers. The implications of the results to experimental studies of He scattering from disordered surfaces are discussed, and a combined experimental-theoretical study is made for Ag submonolayers on Pt(111). Some of the main theoretical findings are: (1) Structural aspects of the calculated intensities from translationally random clusters were found to be strongly correlated with those of individual clusters. (2) Low intensity Bragg interference peaks appear even for scattering from very small ad-islands, and contain information on the ad-island local electron structure. (3) For fractal islands, just as for islands with a different structure, the off-specular intensity depends on the parameters of the He/Ag interaction, and does not follow a universal power law as previously proposed in the literature. In the experimental-theoretical study of Ag on Pt(111), we use first experimental He scattering data from low-coverage (single adsorbate) systems to determine an empirical He/Ag-Pt potential of good quality. Then, we carry out He scattering calculations for high coverage and compare with experiments. The conclusions are that the actual experimental phase corresponds to small compact Ag clusters of narrow size distribution, translationally disordered on the surface.Comment: 36 double-spaced pages, 10 figures; accepted by J. Chem. Phys., scheduled to appear March 8. More info available at http://www.fh.huji.ac.il/~dani

Reconstruction of thermally-symmetrized quantum autocorrelation functions from imaginary-time data

In this paper, I propose a technique for recovering quantum dynamical information from imaginary-time data via the resolution of a one-dimensional Hamburger moment problem. It is shown that the quantum autocorrelation functions are uniquely determined by and can be reconstructed from their sequence of derivatives at origin. A general class of reconstruction algorithms is then identified, according to Theorem 3. The technique is advocated as especially effective for a certain class of quantum problems in continuum space, for which only a few moments are necessary. For such problems, it is argued that the derivatives at origin can be evaluated by Monte Carlo simulations via estimators of finite variances in the limit of an infinite number of path variables. Finally, a maximum entropy inversion algorithm for the Hamburger moment problem is utilized to compute the quantum rate of reaction for a one-dimensional symmetric Eckart barrier.Comment: 15 pages, no figures, to appear in Phys. Rev.

Showcase Panel I: What Is Regulation For?

2018 National Lawyers Convention Transcripts “The administrative state, with roots over a century old, was founded on the premise that Congress lacked the expertise to deal with the many complex issues facing government in a fast-changing country, and that it was unhelpfully mired in and influenced by politics, leading to bad outcomes when it did act. The alternative was to establish administrative agencies, each with assigned areas of responsibility, housing learned experts qualified to make policy decisions, deliberately insulated from political accountability. The Administrative Procedure Act (APA), passed in 1946, both governs the manner in which agencies may adopt and enforce regulations, and provides for judicial review of agency action. Supporters of the administrative state point to the successes of agency actions leading to a cleaner environment, more sensible use of finite resources, healthier foods, safety on the roads and rails, and many other areas of improved quality of life. But even looking past structural separation of powers issues written into the bones of the administrative state, critics assert that in the ensuing 70 years the APA has become an ineffective limitation on agency power, as agencies bypassed its requirements by issuing sub-regulatory guidance, letters, FAQs, and more. Compounding the problem, the critics continue, the courts have adopted a policy of deference to agency actions that grant agencies even more latitude. Is it time to revisit the APA? If so, how should it be updated?” Speakers:Prof. Richard Epstein, Laurence A. Tisch Professor of Law, and Director, Classical Liberal Institute, New York University School of Law Prof. Philip Hamburger, Maurice & Hilda Friedman Professor of Law, Columbia Law School Prof. Kathryn Kovacs, Professor of Law, Rutgers Law School Prof. Jon Michaels, Professor of Law, UCLA School Of Law Moderator: Hon. Britt Grant, United States Court of Appeals, Eleventh Circuit Credit: The Federalist Society, https://fedsoc.org/conferences/2018-national-lawyers-convention#agenda-item-showcase-panel-i-what-is-regulation-fo

Inversion of Randomly Corrugated Surfaces Structure from Atom Scattering Data

The Sudden Approximation is applied to invert structural data on randomly corrugated surfaces from inert atom scattering intensities. Several expressions relating experimental observables to surface statistical features are derived. The results suggest that atom (and in particular He) scattering can be used profitably to study hitherto unexplored forms of complex surface disorder.Comment: 10 pages, no figures. Related papers available at http://neon.cchem.berkeley.edu/~dan

Showcase Panel I: What Is Regulation For?

2018 National Lawyers Convention Transcripts “The administrative state, with roots over a century old, was founded on the premise that Congress lacked the expertise to deal with the many complex issues facing government in a fast-changing country, and that it was unhelpfully mired in and influenced by politics, leading to bad outcomes when it did act. The alternative was to establish administrative agencies, each with assigned areas of responsibility, housing learned experts qualified to make policy decisions, deliberately insulated from political accountability. The Administrative Procedure Act (APA), passed in 1946, both governs the manner in which agencies may adopt and enforce regulations, and provides for judicial review of agency action. Supporters of the administrative state point to the successes of agency actions leading to a cleaner environment, more sensible use of finite resources, healthier foods, safety on the roads and rails, and many other areas of improved quality of life. But even looking past structural separation of powers issues written into the bones of the administrative state, critics assert that in the ensuing 70 years the APA has become an ineffective limitation on agency power, as agencies bypassed its requirements by issuing sub-regulatory guidance, letters, FAQs, and more. Compounding the problem, the critics continue, the courts have adopted a policy of deference to agency actions that grant agencies even more latitude. Is it time to revisit the APA? If so, how should it be updated?

Fractal Analysis of Protein Potential Energy Landscapes

The fractal properties of the total potential energy V as a function of time t are studied for a number of systems, including realistic models of proteins (PPT, BPTI and myoglobin). The fractal dimension of V(t), characterized by the exponent \gamma, is almost independent of temperature and increases with time, more slowly the larger the protein. Perhaps the most striking observation of this study is the apparent universality of the fractal dimension, which depends only weakly on the type of molecular system. We explain this behavior by assuming that fractality is caused by a self-generated dynamical noise, a consequence of intermode coupling due to anharmonicity. Global topological features of the potential energy landscape are found to have little effect on the observed fractal behavior.Comment: 17 pages, single spaced, including 12 figure