WorldCat Identities

McEuen, Paul

Overview
Works: 17 works in 57 publications in 12 languages and 1,584 library holdings
Genres: Fiction  Suspense fiction  History  Conference papers and proceedings  Detective and mystery fiction 
Roles: Author, Thesis advisor, Creator
Classifications: QC176, 530.41
Publication Timeline
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Most widely held works by Paul McEuen
Spiral : a novel by Paul McEuen( Book )

28 editions published between 2010 and 2014 in 12 languages and held by 1,161 WorldCat member libraries worldwide

The race is on to stop the devastating proliferation of the ultimate bioweapon. What begins as a quest for answers soon leads to a horrifying series of revelations at the crossroads of biological warfare and nanoscience. At this dangerous intersection, a skilled and sadistic assassin, an infamous Japanese war criminal, and a ruthless U.S. government official are all players in a harrowing game of power, treachery, and intrigue--a game whose winner will hold the world's fate literally in the palm of his hand
Introduction to solid state physics by Charles Kittel( Book )

8 editions published between 2005 and 2015 in English and French and held by 139 WorldCat member libraries worldwide

author index
Spiral a novel by Paul McEuen( )

5 editions published between 2010 and 2011 in German and English and held by 109 WorldCat member libraries worldwide

The race is on to stop the devastating proliferation of the ultimate bioweapon. What begins as a quest for answers soon leads to a horrifying series of revelations at the crossroads of biological warfare and nanoscience. At this dangerous intersection, a skilled and sadistic assassin, an infamous Japanese war criminal, and a ruthless U.S. government official are all players in a harrowing game of power, treachery, and intrigue--a game whose winner will hold the world's fate literally in the palm of his hand
Johannes Steck liest Paul McEuen, Spiral( )

2 editions published in 2010 in German and held by 4 WorldCat member libraries worldwide

Carbon nanotubes a new class of 1D conductors by Paul McEuen( Visual )

1 edition published in 1998 in English and held by 2 WorldCat member libraries worldwide

Dr. Paul McEuen of the Physics Dept., University of California, Berkeley and Materials Sciences Division, Lawrence Berkeley National Laboratory discusses experiments to probe the electrical properties of carbon nanotubes (single sheets of graphite rolled into nanometer diameter cylinders), predicted to be a new class of one-dimensional conductors that can be either metallic or semiconducting depending upon their structural details
Electrons in tiny boxes quantization effects in submicron gases by Paul McEuen( Visual )

1 edition published in 1991 in English and held by 2 WorldCat member libraries worldwide

The electronic properties of GaAs "dots", ultrasmall electron gases containing fewer than one hundred electrons, are strongly affected by basic quantization phenomenae. The ability of electrons to tunnel into and out of a dot is regulated by the Coulomb charging energy required to add an electron to the dot and by the nature of the dot's "particle-in-a-box" energy states. From the tunneling measurements, the properties of the individual energy states within a submicron GaAs dot are explored
Johannes Steck liest Paul McEuen, Spiral MP3-CD mit Daisy-Navigation( Recording )

2 editions published in 2010 in German and held by 2 WorldCat member libraries worldwide

Het experiment by Paul McEuen( Recording )

1 edition published in 2012 in Dutch and held by 2 WorldCat member libraries worldwide

Ruim zestig jaar nadat een vooraanstaande bioloog een aanslag door een Japanse krijgsgevangene met een dodelijke schimmel voorkwam, zetten zijn assistent en zijn kleindochter alles op alles om te voorkomen dat dit doemscenario werkelijkheid wordt
Microtweezers for studying vibrating carbon nanotubes by Arthur William Barnard( Book )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Vibrational modes in suspended carbon nanotubes (CNTs) are incredibly soft, which makes them sensitive to small forces and prime candidates as force sensors. This same property, combined with the stiffness of the CNT to stretching, makes them an unusual mechanical system characterized both by large thermally-activated fluctuations and strong nonlinear interactions between the resonance modes. To understand how these thermal fluctuations manifest themselves in the resonance of CNTs, we developed an electrically-contacted micro-tweezer platform. The platform is capable of lifting a pristine CNT off of its growth substrate, directly applying strain to the free-standing doubly-clamped CNT, and controlling its proximity to electrical gates. Using the unprecedented level of measurement precision offered by our novel setup, we preformed the firstever single-shot ring-down measurements on CNTs, to map the resonance spectra as a function of strain and we directly measured the thermal motion of single-walled CNTs at room temperature. These measurements, in agreement with our original theoretical predictions, convincingly show that thermally-inducted fluctuations of CNT resonance modes are in fact the source of the remarkably high mechanical dissipation that has been ubiquitously observed in room-temperature CNT resonators. This result is not material dependent and the underlying physics should apply to all nanoscale 1D resonators. In addition to this key result, we use the microtweezer platform to couple CNT resonators to high-Q optical microdisk resonators. With this hybrid system, we demonstrate remarkably strong optomechanical coupling and make the first-ever observation of the optical spring-effect on CNT mechanical resonators
Scanned probe imaging single-electron charge states in nanotube quantum dots by Paul McEuen( )

1 edition published in 2002 in English and held by 1 WorldCat member library worldwide

Strain solitons and nanotube-aligned nanopore DNA sensors by Jonathan Scott Alden( Book )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Virus by Paul McEuen( Recording )

1 edition published in 2013 in Swedish and held by 1 WorldCat member library worldwide

Carbon nanotubes dots, wires, and crosses by Paul McEuen( Visual )

1 edition published in 1999 in English and held by 1 WorldCat member library worldwide

Nanotechnology : carbon-based electronics by Paul McEuen( )

1 edition published in 1998 in English and held by 1 WorldCat member library worldwide

Temperature-Dependent Mechanics In Suspended Graphene Systems by Isaac Robert Storch( Book )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Graphene is an atomically thin material with unique electrical, optical, and mechanical properties. In this thesis, we explore some of the interesting temperature-dependent mechanics of graphene membranes. We start by presenting the typical mechanical theory used by experimentalists to model a suspended graphene membrane in the presence of an electrostatic force, and we expand it to account for various effects, such as slack, capacitive softening, and dynamic changes in tension. We also perform finite element analysis using COMSOL Multiphysics software and compare the results with the analytic solution. Then, we show how to use the transfer matrix technique to model graphene optically as an infinitesimal conducting boundary. We solve for the reflectance of a graphene sheet parallel to a perfect mirror, which is important for measurements using optical detection. Next, we summarize the first measurement of photothermal optomechanics in graphene resonators, demonstrate both self-oscillation and cooling, and develop a theory to predict the optomechanical spring constant induced by photothermal forces. Finally, we develop an optical technique for sensing the static deflection of a graphene membrane and use it to measure the temperature dependence of the Young's modulus of graphene for the first time. We find that the room temperature modulus is much softer than expected from thermal rippling theories, but it stiffens significantly at low temperature
Large-Scale Arrays of Single Layer Graphene Resonators( )

1 edition published in 2010 in English and held by 0 WorldCat member libraries worldwide

We use chemical vapor deposition-grown graphene to produce large arrays of suspended, single layer graphene membranes with lithographically defined shape, and aligned to microfabricated structures on a substrate. We measure the mechanical resonance frequency and tune it with both electrostatic gate voltage and temperature. Resonator quality factors improve with temperature, from 20-300 at 300 K to 9000 at 10 K. These measurements show that it is possible to produce large arrays of graphene resonators that maintain graphene's excellent electrical and mechanical properties
Electronic Wavefunction Imaging and Spectroscopy in Metallic and Magnetic Nanostructures by Millikelvin Scanning Tunneling Microscopy( )

1 edition published in 2002 in English and held by 0 WorldCat member libraries worldwide

Our research group is involved in the use of a millikelvin Scanning Tunneling Microscope (mk-STM), developed in previous grant periods
 
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Spiral : a novel
Alternative Names
Mac Euen, Paul

Mac Euen, Paul 1963-

MacEuen, P. 1963-

MacEuen, Paul

MacEuen, Paul 1963-

Mc Euen, Paul

Mc Euen, Paul 1963-

McEuen, Paul L. 1963-

Paul McEuen American physicist

מקיואן, פול 1963-

Languages
Covers
Introduction to solid state physicsSpiral a novel