Development of an Ultra-high Vacuum Scanning Tunneling Microscope PDF Download
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Author: Aidan Quinn
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Aidan Quinn
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Marc Fouchier
Publisher:
ISBN:
Category : Germanium
Languages : en
Pages : 362
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Author: Maximillian Assig
Publisher:
ISBN:
Category :
Languages : en
Pages : 133
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Author: Suchit Sharma
Publisher: GRIN Verlag
ISBN: 3668588252
Category : Technology & Engineering
Languages : en
Pages : 21
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Literature Review from the year 2015 in the subject Engineering - General, Indian Institute of Technology, Delhi, course: Mineral Engineering, language: English, abstract: Atomic-scale resolution is needed to study the arrangement of atoms in materials and advancing their understanding. Since the seventeenth-century optical microscopes using visible light as illumination source have led our quest to observe microscopic species but the resolution attainable reached physical limits due to the much longer wavelength of visible light. After the discovery of wave nature associated with particle bodies, a new channel of thought opened considering much shorter wavelength of particles and their special properties when interacting with the sample under observation. These particles i.e. electrons, neutrons and ions were developed in different techniques and were used as illumination sources. Herein, the development of scanning tunneling microscopy which used electrons to uncover irregularities in the arrangement of atoms in thin materials via the quantum mechanical phenomenon of electron tunneling became a sensational invention. Atomic Force Microscopy (AFM) is a development over STM which relied on measuring the forces of contact between the sample and a scanning probe which overcame the earlier technique only allowing conductors or pretreated surfaces for conducting to be observed. Since measuring contact forces between materials is a more fundamental approach that is equally but more sensitive than measuring tunneling current flowing between them, atomic force microscopy has been able to image insulators as well as semiconductors and conductors with atomic resolution by substituting tunneling current with an atomic contact force sensing arrangement, a delicate cantilever, which can image conductors and insulators alike via mechanical "touch" while running over surface atoms of the sample. AFM has seen a massive proliferation in hobbyist’s lab in form of ambient-condition scanning environment as opposed to an ultra-high vacuum of sophisticated labs and self-assembled instrumentations. The success of ATM as a cost-effective imaging tool with dramatically increased ease of conceptual understanding and use particularly with the assistance of significant computing power in the form of personal computers which offsets the computational difficulty of resolving experimental information which makes up for physical simplicity of instrument design has seen its proliferation to numerous labs in universities and technology companies worldwide.
Author: Charles N. Woodburn
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Michael Bowker
Publisher: John Wiley & Sons
ISBN: 9783527628834
Category : Science
Languages : en
Pages : 258
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Here, top international authors in the field of STM and surface science present first-class contributions on this hot topic, bringing the reader up to date with the latest developments in this rapidly advancing field. The focus is on the nanoscale, particularly in relation to catalysis, involving developments in our understanding of the nature of the surfaces of oxides and nanoparticulate materials, as well as adsorption, and includes in-situ studies of catalysis on such model materials. Of high interest to practitioners of surface science, nanoscience, STM and catalysis.
Author:
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Category :
Languages : en
Pages : 6
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This report describes recent progress towards the development of a variable temperature cryogenic UHV-STM. The transition from STM-based nanolithography and the loss of a good graduate student (to Stanford) has slowed this project. However, a part-time postdoc has been hired and a new student is being recruited. The apparatus is now essentially complete as a stand alone system, and the testing sequence has begun.
Author: Fan Zhang
Publisher:
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Category :
Languages : en
Pages :
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In this thesis, two major modifications to an ultra-high-vacuum scanning tunneling microscope system are described: an update to the cooling plate structure for more effective cooling of the dipstick and sample holder, and the installation of a capillary doser for concentrating the precursor gas to the tip-ample junction during silicon nanostructure growth. The updated cooling plate is able to shorten the total sample preparation time from 6 hours to 3 hours. The capillary doser lowers the base pressure during the silicon growth experiment by two orders of magnitude. The system operation after the system modification was tested. The system is now ready for subsequent silicon nanostructure growth using disilane gas.
Author: Christopher Andrew Pearson
Publisher:
ISBN:
Category :
Languages : en
Pages : 172
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Author: Nagamitsu Yoshimura
Publisher: Academic Press
ISBN: 012819703X
Category : Technology & Engineering
Languages : en
Pages : 575
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A Review: Ultrahigh-Vacuum Technology for Electron Microscopes provides information on the fundamentals of ultra-high vacuum systems. It covers the very subtle process that can help increase pressure inside the microscope (or inside any other ultra-high vacuum system) and the different behavior of the molecules contributing to this kind of process. Prof Yoshimura’s book offers detailed information on electron microscope components, as well as UHV technology. This book is an ideal resource for industrial microscopists, engineers and scientists responsible for the design, operation and maintenance of electron microscopes. In addition, engineering students or engineers working with electron microscopes will find it useful. Teaches how to incorporate diffusion pumps for UHV electron microscopy Presents the work of an author who brings a lifetime of experience working on vacuum technology and electron microscopes
