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Resolving Strong Field Dynamics in Cation States of CO2 via Optimised Molecular Alignment
Malte Oppermann
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Description for Resolving Strong Field Dynamics in Cation States of CO2 via Optimised Molecular Alignment
Hardback. Series: Springer Theses. Num Pages: 223 pages, 57 black & white illustrations, 37 colour illustrations, biography. BIC Classification: PHFP; PNR; TTBL. Category: (P) Professional & Vocational. Dimension: 235 x 155 x 18. Weight in Grams: 502.
This thesis presents an experimental study of the ultrafast molecular dynamics of CO_2^+ that are induced by a strong, near-infrared, femtosecond laser pulse. In particular, typical strong field phenomena such as tunneling ionisation, nonsequential double ionisation and photo-induced dissociation are investigated and controlled by employing an experimental technique called impulsive molecular alignment. Here, a first laser pulse fixes the molecule in space, such that the molecular dynamics can be studied as a function of the molecular geometry with a second laser pulse. The experiments are placed within the context of the study and control of ultrafast molecular dynamics, where sub-femtosecond ... Read more
This thesis presents an experimental study of the ultrafast molecular dynamics of CO_2^+ that are induced by a strong, near-infrared, femtosecond laser pulse. In particular, typical strong field phenomena such as tunneling ionisation, nonsequential double ionisation and photo-induced dissociation are investigated and controlled by employing an experimental technique called impulsive molecular alignment. Here, a first laser pulse fixes the molecule in space, such that the molecular dynamics can be studied as a function of the molecular geometry with a second laser pulse. The experiments are placed within the context of the study and control of ultrafast molecular dynamics, where sub-femtosecond ... Read more
Product Details
Format
Hardback
Publication date
2014
Publisher
Springer International Publishing AG Switzerland
Number of pages
223
Condition
New
Series
Springer Theses
Number of Pages
205
Place of Publication
Cham, Switzerland
ISBN
9783319053370
SKU
V9783319053370
Shipping Time
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Ref
99-15
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