we plan to extend attosecond science to larger molecules and condensed
phase systems building upon our present activity in HHG spectroscopy and
attosecond pulse generation. I hope to give a short briefing on the
scientific plans
material...
Tuesday, 22 March 2011
Tuesday, 8 March 2011
JC: Misha: Radiation Generated by the Ultrafast Migration of a Positive Charge Following the Ionization of a Molecular System
Electronic many-body effects alone can be the driving force for an
ultrafast migration of a positive charge created upon ionization of
molecular systems. Here we show that this purely electronic phenomenon
generates a characteristic IR radiation. The situation when the initial
ionic wave packet is produced by a sudden removal of an electron is also
studied. It is shown that in this case a much stronger UV emission is
generated. This emission appears as an ultrafast response of the
remaining electrons to the perturbation caused by the sudden ionization
and as such is a universal phenomenon to be expected in every
multielectron system.
http://prl.aps.org/abstract/PRL/v106/i5/e053001
What I want everyone to think about is:
- What is the role of the detached electron that they have completely neglected?
- Can this radiation be observed, and if yes, will it be coherent?
PPT slides to follow...#
http://prl.aps.org/abstract/PRL/v106/i5/e053001
What I want everyone to think about is:
- What is the role of the detached electron that they have completely neglected?
- Can this radiation be observed, and if yes, will it be coherent?
PPT slides to follow...#
Tuesday, 22 February 2011
DM: Luis: how to grow micro and nanostructures, with both, nanosecond and femtosecond laser pulses
(i) Laser irradiation of materials with laser pulses whose energy density
is around the ablation limit, no matter whether they are femtosecond or
nanosecond pulses, do produce microconical structures despite of the, most
likely, different mechanisms involved. These structucture do have several
interesting applications.
(ii) We will show how a metalic thin film of nanoparticles can be rearranged just by shining few laser pulses with a well defined intensity structure.
PPT slides to follow...
(ii) We will show how a metalic thin film of nanoparticles can be rearranged just by shining few laser pulses with a well defined intensity structure.
PPT slides to follow...
Tuesday, 8 February 2011
DM: Malte: Molecular structure dependence of recollision induced fragmentation in N2
After converting the VMI in the Red Dragon lab to an ion time-of-flight
spectrometer, it is currently used to investigate those inelastic
electron recollisions, which lead to fragmentation. Inelastic
recollisions lead to electron-electron interactions in the outer shell
of the molecule and investigating them is one of the objectives of
attosecond science.
In the lab, we are trying to find out if the recollision induced fragmentation of N2 depends on the alignment of the molecule, or in other words if fragmentation is more probable if the electron hits the molecule parallel or perpendicular with respect to the bond.
I will give a detailed description of the required experimental steps to find an answer to that question and present a few intermediate results. I will try to raise a few questions about the setup and future plans to get input from the group.
Most of the experimental issues are mentioned in the following paper, written by a very familiar Irish man: http://pra.aps.org/abstract/PRA/v73/i4/e043401 Nevertheless, I will briefly discuss them during the meeting as well.
PPT slides to follow...
In the lab, we are trying to find out if the recollision induced fragmentation of N2 depends on the alignment of the molecule, or in other words if fragmentation is more probable if the electron hits the molecule parallel or perpendicular with respect to the bond.
I will give a detailed description of the required experimental steps to find an answer to that question and present a few intermediate results. I will try to raise a few questions about the setup and future plans to get input from the group.
Most of the experimental issues are mentioned in the following paper, written by a very familiar Irish man: http://pra.aps.org/abstract/PRA/v73/i4/e043401 Nevertheless, I will briefly discuss them during the meeting as well.
PPT slides to follow...
Tuesday, 25 January 2011
JC&DM: Tobi: Characterization of high intensity sub-4-fs laser pulses using spatially encoded spectral shearing interferometry
I'll try to give a mini-intro about ultrafast pulse characterisation and
the SPIDER technique and discuss the latest attolab output
Tuesday, 14 December 2010
JC: Will: Higher-Order Kerr Terms Allow Ionization-Free Filamentation in Gases v2.0
Tuesday, 7 December 2010
DM: Leszek: Partial Covariance Mapping -- an experimental technique for FELs
* covariance mapping principle and its relation to coincidences [1,3]
* three- and higher-fold covariance [2]
* what is partial covariance and why is it useful?
* the noise from uncorrelated background (false coincidences)
* can partial covariance mapping be generalised to multi-fold correlations?
The introduction is going to be brief - really, the audience should be familiar with earlier work:
1. .Covariance Mapping: A Correlation Method Applied to Multiphoton Multiple Ionisation. L J Frasinski, K Codling and P A Hatherly Science 246 1029.1031 (1989)
2. .Multiphoton multiple ionisation of N2O probed by three-dimensional covariance mapping. L J Frasinski, P A Hatherly and K Codling Physics Letters A 156 227.232 (1991)
3. .Covariance mapping and triple coincidence techniques applied to multielectron dissociative ionization. L J Frasinski, A J Giles, P A Hatherly, J H Posthumus, M R Thompson and K Codling J. Electron Spectrosc. Relat. Phenom. 79 367.371 (1996)
PDFs for the papers as we don't have access to Physics Letters A... PPT slides to follow...
* three- and higher-fold covariance [2]
* what is partial covariance and why is it useful?
* the noise from uncorrelated background (false coincidences)
* can partial covariance mapping be generalised to multi-fold correlations?
The introduction is going to be brief - really, the audience should be familiar with earlier work:
1. .Covariance Mapping: A Correlation Method Applied to Multiphoton Multiple Ionisation. L J Frasinski, K Codling and P A Hatherly Science 246 1029.1031 (1989)
2. .Multiphoton multiple ionisation of N2O probed by three-dimensional covariance mapping. L J Frasinski, P A Hatherly and K Codling Physics Letters A 156 227.232 (1991)
3. .Covariance mapping and triple coincidence techniques applied to multielectron dissociative ionization. L J Frasinski, A J Giles, P A Hatherly, J H Posthumus, M R Thompson and K Codling J. Electron Spectrosc. Relat. Phenom. 79 367.371 (1996)
PDFs for the papers as we don't have access to Physics Letters A... PPT slides to follow...
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