Ronald E. Miller scite author profile

This edition of Ronald Miller and Peter Blair's classic textbook is an essential reference for students and scholars in the input-output research and applications community. The book has been fully revised and updated to reflect important developments in the field since its original publication. New topics covered include SAMs (and extended input-output models) and their connection to input-output data, structural decomposition analysis (SDA), multiplier decompositions, identifying important coefficients, and international input-output models. A major new feature of this edition is that it is also supported by an accompanying website with solutions to all problems, wide-ranging real-world data sets, and appendices with further information for more advanced readers. Input-Output Analysis is an ideal introduction to the subject for advanced undergraduate and graduate students in a wide variety of fields, including economics, regional science, regional economics, city, regional and urban planning, environmental planning, public policy analysis and public management.

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Scanning Hall probe microscopy

Chang

et al. 1992

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We describe the implementation of a scanning Hall probe microscope of outstanding magnetic field sensitivity (∼0.1 G) and unprecedented spatial resolution (∼0.35 μm) to detect surface magnetic fields at close proximity to a sample. Our microscope combines the advantages of a submicron Hall probe fabricated on a GaAs/Al0.3Ga0.7As heterostructure chip and the scanning tunneling microscopy technique for precise positioning. We demonstrate its usefulness by imaging individual vortices in high Tc La1.85Sr0.15CuO4 films and superconducting networks, and magnetic bubble domains.

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Heat capacity and thermal conductivity of hexagonal pyrolytic boron nitride

et al. 1976

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We have measured the heat capacity and thermal conductivity of the layered material hexagonal pyrolytic boron nitride from 2 to 10 K by a pulse-heating technique. The thermal conductivity has also been determined by a steady-state technique from 1.5 to 350 K. At low temperatures, the heat capacity has a T' dependence and the thermal conductivity a T" dependence. Crystallite size was found from transmission electron micrographs. The influence of dislocations on the thermal conductivity is discussed.

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Observation of 4.2-K equilibrium-noise squeezing via a Josephson-parametric amplifier

et al. 1988

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Foundations of Input–Output Analysis

Miller

Blair²

2009

101

149

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Ronald E. Miller

Input-Output Analysis

Scanning Hall probe microscopy

Heat capacity and thermal conductivity of hexagonal pyrolytic boron nitride

Observation of 4.2-K equilibrium-noise squeezing via a Josephson-parametric amplifier

Foundations of Input–Output Analysis

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