EPJ Web of Conferences 41, 02029 (2013) DOI: 10.1051/epjconf/20134102029  C Owned by the authors, published by EDP Sciences, 2013

Probing chirality with a femtosecond reaction microscope N. Bhargava Ram, C. S. Lehmann and M. H. M. Janssen LaserLaB, VU University Amsterdam, 1081HV Amsterdam, the Netherlands Abstract. Detection of molecular chirality with high sensitivity and selectivity is important for many analytical and practical applications. Photoionization has emerged as a very sensitive probe of chirality in molecules. We show here that a table top setup with a femtosecond laser and a single imaging detector for both photoelectrons and photoions enables detection of chirality up to 3 orders of magnitude better than the existing conventional absorption based techniques.

1 Introduction Chiral molecules are a special class of molecules that exist in two forms (or enantiomers) – the left and right handed form – with the same constituent atoms or groups but are mirror images of each other and have different properties arising solely due to their difference in handedness. Chirality is one of the most fundamental and ubiquitous concepts of life. Important biological molecules such as amino acids and sugar bases in living systems and many pharmaceutical drugs are chiral. Further, it is seen that only one form – either left or right – prevails or is useful in most cases. Medicinal value in most pharmaceutical compounds is found only in one enantiomer, while the other form could be harmless but sometimes cause serious side-effects. Many procedures and applications need separation of the two chiral forms with high selectivity and sensitivity. Optical detection of chirality and its molecular structure is conventionally performed by optical rotation or circular dichroism of probe light. Chiral molecules are known to have differential absorption cross-sections for the ‘left’ and ‘right’ circularly polarized (LCP/RCP) light - known as circular dichroism. However, this differential absorption is typically of the order of 0.01% to the total absorption cross section and arises out of magnetic dipole and electric quadrupole interactions and interferences. Such experiments in gas phase are further plagued by low target densities and subsequently low signal/yields. In 1976, Ritchie [1] reported that ionization of randomly oriented gas phases chiral molecules with circular polarized light results in an angular distribution of electrons that will show a (strong) linear term in cos() i.e. I()=1+b1 cos()+b2 cos2() within the dipole approximation. Here,  is the angle between the velocity of the ejected electron and the propagation direction of the circularly polarized light. This linear term in cos() manifests as excess in the scattering of electrons either in the forward or backward direction for a given enantiomer using left/right circularly polarized light. It has been extensively demonstrated in the last decade that photoelectrons from many chiral molecules upon one-photon ionization with CPL using synchrotron sources [2, 3] exhibit a strong chiral asymmetry (upto 32% [4]). This chiral asymmetry in the photoelectron angular distribution using This is an Open Access article distributed under the terms of the Creative Commons Attribution License 2.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Article available at http://www.epj-conferences.org or http://dx.doi.org/10.1051/epjconf/20134102029

EPJ Web of Conferences

circularly polarized light is termed photo-electron circular dichroism (PECD). The high sensitivity of PECD makes angular-resolved photoionization of enantiomers very promising as a sensitive analytical technique to characterize chiral samples. While synchrotron light sources are large scale facilities, we have attempted to open the PECD technique to small scale laboratories with a table top setup using a femtosecond laser and position sensitive detectors. Here, we demonstrate that a relatively simple table-top photo-electron photo-ion coincidence imaging set-up [5-7] can be used to detect mass-selected chiral molecules with high selectivity and sensitivity with our results on the chiral molecule camphor.

2 Experimental details Circular polarized light at 400 nm, 150 fs long and a pulse energy of 30 J is used to photoionize the chiral molecules. The detection setup consists of a state of the art coincidence imaging setup for photoelectrons and photoions using the velocity map imaging technique. Both the electron and the coincident ion were detected on a single Micro-Channel-Plate delay-line detector, by switching the High-Voltages (HV) on the ion optics of the Velocity-Map-Ion (VMI) lenses [5-7]. Initial experiments were done on the two enantiomers of camphor that were obtained commercially (Sigma-Aldrich, purity 98% (R) and 99% (S)) and were contained in two separate tubes in vacuum lines outside the coincidence imaging setup. A set of gas valves made it possible to switch between an expansion with S-camphor or R-camphor. Experiments were performed by repeatedly switching between the two handedness of circular polarization.

3 Results and Discussion (A)



k

R Camphor, LCP

R Camphor, RCP

R Camphor, LCP‐RCP 

S Camphor, RCP

S Camphor, LCP‐RCP

(B)



k

S Camphor, LCP

Fig. 1. Photoelectron images from (A) R-Camphor and (B) S-Camphor obtained from 3-photon ionization using LCP and RCP femtosecond pulses centered at 400 nm. Difference of images of LCP and RCP for each enantiomer (R or S) shows the forward backward asymmetry (~ 8%) arising due to chiral molecular potential of camphor. The red arrow shows the laser propagation direction, which is the symmetry axis in experiments with circular polarized light.

Photo excitation of Camphor molecules (R and S enantiomers; Ionization Potential = 8.8 eV) at 400 nm leads to 3-photon ionization producing photoelectrons of close to 0.5 eV. We imaged the 02029-p.2

XVIIIth International Conference on Ultrafast Phenomena

photoelectrons from R and S enantiomers with both light helicities – LCP and RCP, see Figure 1 (A) and (B). The difference of images of LCP and RCP for a given enantiomer shows a very strong angular asymmetry of photoelectrons corresponding to ionization of the camphor HOMO orbital. To obtain a quantitative measure of the forward backward asymmetry, we integrate all photoelectron events in the forward and backward hemispheres in both images (i.e. Ilcp,forw, Ilcp,back, Ircp,forw and Ilcp,back) and determine the asymmetry in events by evaluating (Ilcp,forw – Ircp,forw) – (Ilcp,back – Ircp,back). We relate this difference in the integrated intensities in the forward/ backward hemisphere to the total integrated intensity of observed photoelectrons. This definition of the overall multi-photon PECD effect is consistent with the one-photon PECD definition [3]. Our data for Camphor at 400 nm shows the multi-photon PECD = 7.8%. This is a factor of 3 larger than the effect measured in onephoton ionization using synchrotron light sources at the same photoelectron kinetic energy [3]. Our experimental results are consistent with recent findings of Lux and co-workers from the Kassel group, Germany [8]. Our data on photoelectron forward-backward chiral asymmetry from gas phase camphor molecules shows a significant asymmetry of about 8 % obtained with a table top femtosecond laser source and a coincidence imaging setup. This novel technique of multiphoton PECD can be easily extended to probe for effects of the magnitude of photoelectron energy by changing the wavelength of the femtosecond excitation laser pulse using non-linear frequency mixing techniques. It will be very interesting to investigate whether there is a change in the size of the MPMS-PECD effect by varying the kinetic energy of the ejected photoelectron. Such effects have been observed in PECD measurements using synchrotron radiation [3], and we are presently investigating these photoelectron energy effects in our novel microscope. Furthermore, the availability of a multi-photon excitation scheme also offers the possibility to explore the influence of (near)-resonance excitation at intermediate excited levels and alignment of the intermediate state. By going via an electronically excited state one can probe the effect of the initial molecular orbital on the magnitude of the chiral asymmetry in order to maximize the MPMS-PECD effect. This can be readily explored by varying the femtosecond laser wavelength, or by using a two-color femtosecond pump-probe excitation. The technique can be combined with femtosecond (polarization) pulse shaping and such further extensions using pulse shaping are currently planned in our laboratory. More experiments and analysis are in progress.

References 1. B. Ritchie, Phys. Rev. A 13, 1411 (1976). 2. I. Powis, J. Phys. Chem. A 104, 878 (2000). 3. L. Nahon, G. Garcia, H. Soldi.-Lose, S. Daly, and I. Powis, Phys. Rev. A 82, 032514 (2010). 4. S. Daly, I. Powis, G. Garcia, H. Soldi-Lose and L. Nahon, J. Chem. Phys. 134, 064306 (2011) 5. A. Vredenborg, W. G. Roeterdink, and M. H. M. Janssen, Rev. Sci. Instrum. 79, 063108 (2008). 6. A. Vredenborg, C. S. Lehmann, D. Irimia, W. G. Roeterdink, M. H. M. Janssen, ChemPhysChem., 12, 1459 (2011). 7. C. S. Lehmann, N. Bhargava Ram, D. Irimia and M. H. M. Janssen, Faraday Discuss., 153, 173 (2011). 8. C. Lux, M. Wollenhaupt, T. Bolze, Q. Liang, J. Koehler, C. Sarpe and T. Baumert, Angew. Chem. Int. Ed., 51, 4755 (2012)

02029-p.3

Probing chirality with a femtosecond reaction ... - scitechadvisors

with circular polarized light results in an angular distribution of electrons that will show ... angle between the velocity of the ejected electron and the propagation ...

666KB Sizes 4 Downloads 344 Views

Recommend Documents

Probing chirality with a femtosecond reaction ... - scitechadvisors
important for many analytical and practical applications. ... angle between the velocity of the ejected electron and the propagation direction of the circularly.

Femtosecond laser ablation of polytetrafluoroethylene ...
May 15, 2003 - Data Storage Institute, DSI Building, Singapore 117608, Singapore ... The advantages of ultrashort laser processing of Teflon include a minimal thermal ... each irradiated surface area must be large enough for a clear edge definition a

Reaction of trihaloisocyanuric acids with alkynes - Arkivoc
Dec 3, 2017 - Table 2. Monohalogenation of different alkynes with TXCA. R. OAc. R'. X. R. R'. 0.34 eq. TXCA. HOAc:Ac2O (1:1), r.t. ..... Spectral characterization of the products is available in the Supplementary File. References. 1. Mendonça, G. F.

Probing the Chiral Anomaly with Nonlocal ... - Semantic Scholar
Sep 2, 2014 - linearly from degeneracy points at which two energy bands meet. .... generation magnetic field Bg, a valley imbalance Δμ is created via the chiral anomaly ...... nonlocal transport, we note that an alternative approach would be ...

Probing marine Gammarus (Amphipoda) taxonomy with ...
Systematics and Biodiversity 7 (4): 365–379 .... in the well-supported phylogenetic backbone it supplies, show- ...... Computer. Applications in the Biosciences 8, 275–282. KEANE, T.M., CREEVEY, C.J., PENTONY, M.M., NAUGHTON, T.J. &.

Probing weakly bound molecules with nonresonant light
n = 1: Coulomb potential (H atom) n = 2: ion/electron + polar molecule n = 3: two polar molecules n = 4: ion/electron + atom n = 6: two atoms (molecular potential).

Femtosecond tuning of Cr:colquiriite lasers with AlGaAs ...
“Multiphoton fluorescence excitation: New spectral windows for biological ... S. A. Payne, L. L. Chase, L. K. Smith, W. L. Kway, and H. W.. Newkirk, “Laser ...

Probing perceptual decisions in rodents
Jun 25, 2013 - part of the night to lower body temperature and conserve energy26. .... An increasingly popular alternative to SDT, the drift diffusion ...... Platt, M.L. & Hayden, B. Learning: not just the facts, ma'am, but the counterfactuals as wel

A multicomponent reaction efficiently producing ...
Available online 3 July 2006. Abstract—We ... +91 9415106859; fax: +91 522. 2223405; e-mail: .... These data can be obtained free of charge from www.ccdc.

Reaction of 3-aminopyrrole with chloropyrimidines to give ... - Arkivoc
Only in the reaction of 2,4,6-trichloropyrimidine was substitution at C2 .... In comparison polychlorinated pyrimidines ... pyrimidine ring plus the leaving group.

Femtosecond and nanosecond nonlinear optical ...
structural flexibility with the capacity of hosting $70 differ- ent elements in the ... [19,20] on application of phthalocyanines in PDT have motivated us further to ...

Towards local electromechanical probing of ... - Semantic Scholar
Sep 19, 2007 - (Some figures in this article are in colour only in the electronic .... from Electron Microscopy Sciences) at room temperature for ..... These data.

Reaction of benzyl chloride with ammonium sulfide ...
E-mail address: [email protected] (N.C. Pradhan). elemental sulfur ... sulfide were carried out in batch mode in a 6.5cm i.d. fully baffled mechanically ...

Real-Time Observation of Strand Exchange Reaction with ... - Cell Press
Aug 10, 2011 - more detail in the following section. Evidence for 3 nt Step Size ...... The data acquisitions were carried out using home-built software written in ...

Reaction Products with Internal Energy beyond the Kinematic Limit ...
Nov 8, 2005 - Reaction Products with Internal Energy beyond the Kinematic Limit Result from Trajectories Far from the Minimum Energy Path: An Example from. H + HBr f H2 + Br. Andrew E. Pomerantz,‡ Jon P. Camden,‡ Albert S. Chiou,‡ Florian Ausfe

Real-Time Observation of Strand Exchange Reaction with ... - Cell Press
Aug 10, 2011 - (D) Gamma distribution fit of Dtdelay histograms for Lh = 39 nt. dsDNA of corresponding length, Lh = 39 bp, was used in this measurement.

Reaction of trifluoromethyl 1,3-dicarbonyl compounds with ... - Arkivoc
May 26, 2017 - The Free Internet Journal for Organic Chemistry ...... Gabdrakhmanova, S. F.; Karachurina, L. T.; Baschenko, N. Zh. Pharm. Chem. J. 2006, 40 ...

The reaction of sydnones with bromine in acetic anhydride ... - Arkivoc
Mar 4, 2018 - The present work was undertaken to reinvestigate this transformation, initially, by preparing the bromocarbonylhydrazine salt (4, R = H, X = Cl) from 4-bromo-3-phenylsydnone (2, R = H) and allowing it to react with acetic anhydride in t

Reaction-diffusion system with self-organized critical ... - Springer Link
showing an APT that conserves the total number of parti- cles [11,12]. This model exhibits a non-equilibrium ... critical value ρ = ρc of the total particle density [12]. Here, we define a driven-dissipative version of the .... The exponent σs(1),

CH4 reaction
Mar 15, 2004 - HCl(v 0) products is 30195 and 29293 cm 1 for the. ClCH4( 1) and the ClCH4( 3) reactions, respectively. Accounting for the 100 cm 1 difference ...

Low-cost cavity-dumped femtosecond Cr:LiSAF laser ...
Direct-diode pumping of Cr3+:colquiriite lasers al- lows high electrical-to-optical efficiencies, compact- ness, and ease of use [3,4]. Pumping with four single-.

Highly efficient, low-cost femtosecond Cr3+:LiCAF laser ...
1Department of Electrical Engineering and Computer Science and Research ... Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.