Johnson's dictionary of the English language in miniature : to which are added, an alphabetical account of the heathen deities, and a copious chronological table of remarkable events, discoveries and inventions in Europe /

Text in double columns.

A miniature of Methodism, or, A brief account of the history, doctrines, discipline and character of the Methodists /

Originally published as: A brief statement of facts designed for the information of those who enquire, What are these Methodists?

The speeches, addresses and messages, of the several presidents of the United States, at the openings of Congress and at their respective inaugurations. Also, the Declaration of independence, the Constitution of the United States, and Washington's farewell address to his fellow-citizens. Embracing an official summary of the national events of the first half century of the union. Embellished with miniature likenesses of the presidents, and fac similies of the sages of the revolution, signers to the Declaration of independence.

Mode of access: Internet.

Vignettes; a miniature journal of whim and sentiment,

Mode of access: Internet.

Miniature ball bearings.

Mode of access: Internet.

Wesleyana, or, A complete system of Wesleyan theology : selected from the writings of the Rev. John Wesley, A. M. : and so arranged as to form a miniature body of divinity (from a London publication)

Compiled by William Carpenter.

The New Photo-Miniature

Publication suspended, July 1932-May 1936

A-Z; ou, Le salon en miniature.

Mode of access: Internet.

Dispersionless low-loss miniature slow light delay lines based on optical fibers

A miniature slow light delay line with the record large delay time, small transmission loss, dispersion, and effective speed of light is proposed and demonstrated using the SNAP (Surface Nanoscale Axial Photonics) technology. © 2014 OSA.

Radially rotating miniature heat pipes for turbine blade cooling applications

Aerospace turboengines present a demanding challenge to many heat transfer scientists and engineers. Designers in this field are seeking the best design to transform the chemical energy of the fuel into the useful work of propulsive thrust at maximum efficiency. To this aim, aerospace turboengines must operate at very high temperatures and pressures with very little heat losses. These requirements are often in conflict with the ability to protect the turboengine blades from this hostile thermal environment. Heat pipe technology provides a potential cooling means for the structure exposed to high heat fluxes. Therefore, the objective of this dissertation is to develop a new radially rotating miniature heat pipe, which would combine the traditional air-cooling technology with the heat pipe for more effective turboengine blade cooling. ^ In this dissertation, radially rotating miniature heat pipes are analyzed and studied by employing appropriate flow and heat transfer modeling as well as experimental tests. The analytical solutions for the flows of condensate film and vapor, film thickness, and vapor temperature distribution along the heat pipe length are derived. The diffuse effects of non-condensable gases on the temperature distribution along the heat pipe length are also studied, and the analytical solutions for the temperature distributions with the diffuse effects of non-condensable gases are obtained. Extensive experimental tests on radially rotating miniature heat pipes with different influential parameters are undertaken, and various effects of these parameters on the operation of the heat pipe performance are researched. These analytical solutions are in good agreement with the experimental data. ^ The theoretical and experimental studies have proven that the radially rotating miniature heat pipe has a very large heat transfer capability and a very high effective thermal conductance that is 60–100 times higher than the thermal conductivity of copper. At the same time, the heat pipe has a simple structure and low manufacturing cost, and can withstand strong vibrations and work in a high-temperature environment. Therefore, the combination of the traditional air-cooling technology with the radially rotating miniature heat pipe is a feasible and effective cooling means for high-temperature turbine blades. ^

Miniature optical delay lines and buffers

Creation of miniature optical delay lines and buffers is one of the greatest challenges of the modern photonics which can revolutionize optical communications and computing. Several remarkable designs of slow light optical delay lines employing coupled ring resonators and photonic crystal waveguides has been suggested and experimentally demonstrated. However, the insertion loss of these devices is too large for their practical applications. Alternatively, the recently developed photonic fabrication platform, Surface Nanoscale Axial Photonics (SNAP) allows us to fabricate record small delay lines with unprecedentedly small dispersion and low loss. In this report, we review the recent progress in fabrication and design of miniature slow light devices and buffers, in particular, those based on the SNAP technology.