Rasmussen, A. P., Gruber, E., Teiwes, R., Sheves, M.
& Andersen, L. H. (2021).
Spectroscopy and photoisomerization of protonated Schiff-base retinal derivatives in vacuo.
Physical Chemistry Chemical Physics,
23(48), 27227-27233.
https://doi.org/10.1039/d1cp04501f
Urbain, X., Djuric, N., Safvan, C. P., Jensen, M. J.
, Pedersen, H. B., Vejby Søgaard, L.
& Andersen, L. H. (2005).
Storage ring study of the dissociative recombination of He2+.
Journal of Physics B.: At.Mol.Opt.,
38, 43-50.
Gopalan, A., Antoine, R.
, Klærke, B., Lemoine, J., Racaud, A.
, Rahbek, D. B., Rajput, J., Dugourd, P.
& Andersen, L. H. (2010).
Sub-microsecond photodissociation pathways of gas phase adenosine 5'-monophosphate nudeotide ions.
Physical Chemistry Chemical Physics,
12, 3486-3490.
https://doi.org/10.1039/B921038E
Jensen, M. J., Bilodeau, R. C., Safvan, C. P.
, Andersen, L. H., Pedersen, H. P. & Heber, O. (2000).
The dissociative recombination and branching ratio of H3O+, HD2O+ and D3O+.
Astrophysical Journal,
543, 51424.
Novotny, O., Mitchell, J. B. A., LeGarrec, J. L., Florescu-Mitchell, A. I., Rebrion-Rowe, C.
, Svendsen, A., El Ghazaly, M. A.
, Andersen, L. H., Ehlerding, A., Viggiano, A. A., Hellberg, F., Thomas, R. D., Zhaunerchyk, V., Geppert, W. D., Montaigne, H., Kaminska, M., Osterdahl, F. & Larsson, M. (2005).
The dissociative recombination of fluorocarbon ions: II. CF+.
J. Phys. B: At. Mol. Opt. Phys.,
38, 1471-1482.
Kella, D., Søgaard, L. V.-C., Johnson, P. J.
, Pedersen, H. B. & Andersen, L. H. (1997).
The Source of Green Light Emission Determined from a Heavy-Ion Storage Ring Experiment.
Science,
276(5318), 1530-1533.
Knudsen, J. L., Kluge, A., Bochenkova, A. V.
, Kiefer, H. V. & Andersen, L. H. (2018).
The UV-visible action-absorption spectrum of all-trans and 11-cis protonated Schiff base retinal in the gas phase.
Physical Chemistry Chemical Physics,
20(10), 7190-7194.
https://doi.org/10.1039/c7cp07512j
Gruber, E., Teiwes, R., Kjær, C., Brøndsted Nielsen, S. & Andersen, L. H. (2022).
Tuning fast excited-state decay by ligand attachment in isolated chlorophylla.
Physical Chemistry Chemical Physics,
24(1), 149-155.
https://doi.org/10.1039/d1cp04356k
Svendsen, A., Bluhme, H., El-Ghazaly, M. A. O.
, Seiersen, K., Nielsen, S. B. & Andersen, L. H. (2005).
Tuning the continuum ground state energy of NO22- by water molecules.
Physical Review Letters,
94, 223401-.
Bochenkova, A. V., Klærke, B., Rahbek, D. B., Rajput, J., Toker, J. & Andersen, L. H. (2014).
UV excited-state photoresponse of Biochromophore negative ions.
Angewandte Chemie International Edition,
53(37), 9797-9801.
https://doi.org/10.1002/anie.201404609
Boyé, S.
, Krogh, H., Nielsen, I. B., Nielsen, S. B., Pedersen, S. U., Pedersen, U. V.
& Andersen, L. H. (2003).
Vibrationally resolved photoabsorption spectroscopy of red fluorescent protein chromophore anions.
Physical Review Letters,
90, 118103-1.
Mitchell, J. B. A., Rebrion-Rowe, C., Le Garrec, J. L., Angelova, G.
, Bluhme, H., Seiersen, K. & Andersen, L. H. (2003).
Branching ratios for the dissociative recombination hydrocarbon ions. I: The case of C4H9+ and C4H5+.
Int. J. Mass. Spectrom.,
227.
Andersen, L. H., Lapierre, A.
, Nielsen, S. B., Nielsen, I. B., Pedersen, S. U., Pedersen, U. V. & Tomita, S. (2002).
Chromophores of the green fluorescent protein studied in the gas phase.
Eur. Phys. J.,
D 20.
Andersen, L. H., Bilodeau, R., Jensen, M. J.
, Nielsen, S. B., Safvan, C. P. & Seiersen, K. (2001).
Coulomb scattering centrifugal barrier bound dianion resonances of NO2.
Journal of Chemical Physics,
114.
Seiersen, K., Al-Khalili, A., Heber, O., Jensen, M. J.
, Nielsen, I. B., Pedersen, H. B., Safvan, C. P.
& Andersen, L. H. (2003).
DR of the cation and dication of CO2.
Physical Review A,
68, 022708-1.
Pedersen, H. B., Djuri, N., Jensen, M. J., Kella, D., Safvan, C. P., Schmidt, H. T., Vejby-Christensen, L.
& Andersen, L. H. (1999).
Electron collisions with diatomic anions.
Physical Review A,
60.
Seiersen, K., Bak, J.
, Bluhme, H., Jensen, M. J., Brøndsted Nielsen, S.
& Andersen, L. H. (2003).
Electron-impact detachment of O3-, NO3- and SO2- ions.
Physical Chemistry Chemical Physics,
5.