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Development of an Effusive Molecular Beam Apparatus
Daniel Halwidl
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Description for Development of an Effusive Molecular Beam Apparatus
Paperback. Series: BestMasters. Num Pages: 123 pages, 53 black & white illustrations, biography. BIC Classification: PNR; PNRD. Category: (G) General (US: Trade). Dimension: 150 x 210 x 14. Weight in Grams: 188.
Daniel Halwidl presents the development of an effusive molecular beam apparatus, which allows the dosing of gases, liquids, and solids in ultra-high vacuum. The apparatus is designed to adsorb precise and reproducible doses to a defined area on metal oxide samples, which is required in Temperature Programmed Desorption and other surface chemistry experiments. The design and the construction of the apparatus is described. The properties of the molecular beam are experimentally confirmed. The beam profile has a core diameter of 3.5 mm and a standard core pressure of 4 x 10-8 mbar, while the background pressure is 4 orders of ... Read more
Daniel Halwidl presents the development of an effusive molecular beam apparatus, which allows the dosing of gases, liquids, and solids in ultra-high vacuum. The apparatus is designed to adsorb precise and reproducible doses to a defined area on metal oxide samples, which is required in Temperature Programmed Desorption and other surface chemistry experiments. The design and the construction of the apparatus is described. The properties of the molecular beam are experimentally confirmed. The beam profile has a core diameter of 3.5 mm and a standard core pressure of 4 x 10-8 mbar, while the background pressure is 4 orders of ... Read more
Product Details
Publisher
Springer Fachmedien Wiesbaden
Format
Paperback
Publication date
2016
Series
BestMasters
Condition
New
Weight
187g
Number of Pages
105
Place of Publication
Weisbaden, Germany
ISBN
9783658135355
SKU
V9783658135355
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
About Daniel Halwidl
Daniel Halwidl finished his master thesis under the supervision of Prof. Dr. Ulrike Diebold at the Institute of Applied Physics at the TU Wien. Currently, he is researching the fundamentals of the surface chemistry of perovskite-based solid oxide fuel cell materials to obtain his PhD.
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