Publications and Acitivities

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Peer-reviewed Publications

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2022  
   
116  R.A. Lukmanov et al., High Mass Resolution fs-LIMS Imaging and Manifold Learning Reveal Insight Into Chemical Diversity of the 1.88 Ga Gunflint Chert, Frontiers in Space Technology, 2022, DOI:10.3389/frspt.2022.718943
 115  S. Gruchola et al.,, Improved limit of detection of a high-resolution fs-LIMS instrument through mass-selective beam blanking, In. J. M. Spectr., 474(1):116803; DOI:10.1016/j.ijms.2022.116803
 114  R.A. Lukmanov et al., Multiwavelength Ablation/Ionization and Mass Spectrometric Analysis of 1.88 Ga Gunflint Chert, Astrobiology, 22(4), 2022,DOI: 10.1089/ast.2019.2201
 113  K. Kipfer et al., Toward Detecting Polycyclic Aromatic Hydrocarbons on Planetary Objects with ORIGIN, The Planetary Science Journal, 3, 43, 2022; DOI:10.3847/PSJ/ac4e15
112

R. Fausch et al., CHESS: Measuring the Dynamics of Composition and Density of Earth’s Upper Atmosphere with CubeSats, Proceedings of IEEE Aerospace Conference, 2022.
111   R.G. Fausch, Peter Wurz, M. Tulej, B. Cotting, U. Rohner, and M. Tulej, Direct measurement of neutral gas during hypervelocity planetary flybys, Proceedings of IEEE Aerospace Conference, 2022. 
 2021  
110 R.A. Lukmanov, M. Tulej, N.F.W. Ligterink, C. De Koning, A. Riedo, V. Grimaudo, A. Neubeck, D. Wacey and Peter Wurz, Chemical identification of microfossils from the 1.88 Ga Gunflint chert: Towards empirical biosignatures using LIMS, J. Chemom., 2021, doi:10.1002/cem.3370.
109 A. Riedo, V. Grimaudo, J. Aerts, R. Lukmanov, M. Tulej, P. Broekmann, R. Lindner, P. Wurz and P. Ehrenfreund, Laser Ablation Ionization Mass Spectrometry: A space prototype system for in situ Sulphur isotope fractionation analysis on planetary surfaces, Frontiers in Astronomy and Space Science, Manuscript ID: 726373 (2021).
108 R. A. Lukmanov, C. de Koning, P. K. Schmidt, D. Wacey, N. F. W. Ligterink, S. Gruchola, V. Grimaudo, A. L. M. Neubeck, A. Riedo, M. Tulej and P. Wurz, High-Resolution fs-LIMS 3D imaging and manifold learning reveal insight into chemical diversity of the Gunflint chert (1.88 Ga), Frontiers in Space Technology (2021), doi: 10.3389/fin.2021.718943.
107 R. Lukmanov, A. Riedo, D. Wacey, N. F. Ligterink, V. Riedo, M. Tulej, C. de Koning, A. Neubeck, P. Wurz, On topological analysis of fs-LIMS data. Implications for in situ planetary mass spectrometry, Frontiers in Artificial Intelligence (2021), doi: 10.3389/frai.2021.668163.
106 C. de Koning, S. Gruchola, A. Riedo, R. Wiesendanger, V. Grimaudo, R. Lukmanov, N. F. W. Ligtering, M. Tulej, P. Wurz, Quantitative elemental analysis with the LMS-GT; a next-generation LIMS-TOF instrument, Int. J. Mass Spectrometry, doi: 10.1016/j.ijms.2021.116662.
105 M. B. Neuland, K. Mezger, A. Riedo, M. Tulej, P. Wurz, The chemical composition and homogeneity of the Allende matrix, Planetary Space Science (2021); doi: 10.1016/j.pss.2021.105251.
[100] A. Riedo, R. Lukmanov, V. Grimaudo, C. de Koning, N. F. W. Ligtering, M. Tulej, P. Wurz, Rapid Communications in Mass Spectrometry 35(12) (2021); doi: 10.1002/rcm.9094.
104 M. Tulej, N. F. W. Ligtering, C. de Koning, V. Grimaudo, R. Lukmanov, P. K. Schmidt, A. Riedo, P. Wurz, Current Progress in Femtosecond Laser Ablation/Ionisation Time-of-Flight Mass Spectrometry, Applied Sciences (2021), 11(6):2562; doi: 10.3390/app11062562.
103 N. F.W. Ligterink, A. Riedo, M. Tulej, R. Lukmanov, V. Grimaudo, C. de Koning, P. Wurz, Ch. Briois, N.Carrasco, R. Arevalo Jr., and W. B. Brinckerhoff, Detecting the elemental and molecular signatures of life: Laser-based mass spectrometry technologies (2020); doi: 10.3847/25c2cfeb.782ec4d0.
102 M. Föhn, A. Galli, A. Vorburger, M. Tulej, D. Lasi, A. Riedo, R. Fausch, M. Althaus, S. Brungger, Ph. Fahrer, M. Gerber, M. Lüthi, H. P. Munz, S. Oeschger, D. Piazza, P. Wurz, Description of the Mass Spectrometer for the Jupiter Icy Moons Explorer Mission, Proceedings of 2021 IEEE Aerospace Conference; doi: 10.1109/AERO50100.2021.9438344.
101 P. Wurz, M. Tulej, A. Riedo, V. Grimaudo, R. Lukmanov, N. Thomas, Investigation of the Surface Composition by Laser Ablation/Ionization Mass Spectrometry, Proceedings of 2021 IEEE Aerospace Conference; doi: 10.1109/AERO50100.2021.9438486.
100 A. Cedeño López, V. Grimaudo, A. Riedo, M. Tulej, R. Wiesendanger, R. Lukmanov, P. Moreno-García, E. Lörtscher, P. Wurz, and P. Broekmann,Characterization of laser ablation process on as-deposited SnAg solder alloy using laser ablation ionization mass spectrometry, Spectrochimica Acta B: Atomic Spectroscopy, 180, 106145 (2021); doi:10.1016/j.sab.2021.106145.
99 M. Tulej, R. Lukmanov, V. Grimaudo, A. Riedo, C. de Koning, N. F. W. Ligterink, A. Neubeck, M. Neubeck, and M. Ivarsson, S. McMahon and P. Wurz, Determination of the microscopic mineralogy of inclusion in an amygdaloidal pillow basalt by fs-LIMS, JAAS, 36, 80 (2021); doi: 10.1039/d0ja00390e (+cover).

 

 

 

2020  
   
98 Lasi, Davide; Meyer, Stefan; Piazza, Daniele; Lüthi, Matthias; Nentwig, Andreas; Gruber, Mario; Brüngger, Stefan; Gerber, Michael; Braccini, Saverio; Tulej, Marek; Föhn, Martina; Wurz, Peter (2020). Decisions and Trade-Offs in the Design of a Mass Spectrometer for Jupiter's Icy Moons. In: 2020 IEEE Aerospace Conference (pp. 1-20). IEEE, DOI: 10.1109/aero47225.2020.9172784
97

N. F. W. Ligterink, V. Grimaudo, P. Moreno-García, R. Lukmanov,  M. Tulej, I. Leya,  R. Lindner, P. Wurz, and C. S. Cockell, Ehrenfreund and A. Riedo,ORIGIN: a novel and compact laser desorption mass spectrometry system for sensitive in situ detection of aminoacids on extraterrestrial surfaces, Scientific Reports (2020), 10, 9641, DOI: 10.1038/s41598-020-66240-1.
96

S. Frey, R.Wiesendanger, M. Tulej, M. Neuland, A. Riedo, V. Grimaudo, P. Moreno-García, A. Cedeño López, M. Mohos, B. Hofmann, K. Metzger, P. Broekmann, and  P. Wurz, Chemical analysis of a lunar meteorite by laser ablation mass spectrometry, Planet. Sp. Science (2020), 182, 104816, DOI: 10.1016/j.pss.2019.104816.
95 A. Riedo, W. C. de Koning, A. H. Stevens, C.S. Cockell, A. McDonald, A. C, Lopez, V. Grimaudo, M. Tulej, P. Wurz, and P. Ehrenfreund, The detection of elemental signatures of microbes in martian mudstone analogs using high spatial resolution laser abltation ionization mass spectrometry, Astrobiology, (2020), 20, 1224-1235, DOI: 10.1089/ast.2019.2087.
94 V. Grimaudo, M. Tulej, A. Riedo, R. Lukmanov,  N. F. W. Ligterink, W. C. de Koning and P. Wurz, UV post-ionization mass spectrometry laser ablation ionisation mass spectrometry for improved nm-depth profilig resolution on Cr/Ni reference standard. Rap. Commun. Mass Spectrom. (2020), 34(14), e8803, DOI: 10.1002/rcm.8803.
93

M. Tulej, M. Neubeck, A. Riedo, R. Lukmanov, V. Grimaudo, N. F. W. Ligterink, M. Ivarsson,  W. Bach, W. C. de Koning and P. Wurz, Isotope abundance ratio measurements using femtosecond laser ablation ionisation mass spectrometry (2020), 55 (12), e4660, DOI: 10.1002/jms.4660.
92

 

R. Fausch, P. Wurz, U. Rohner, and M. Tulej, “CubeSatTOF: Planetary Atmospheres Analyzed with a 1U High-Performance Time-Of-Flight Mass Spectrometer,” in Proceedings of the 34th Small Satellite Conference, 2020, no. SSC20-WKII-02, pp. 1–10, [Online]. Available: https://digitalcommons.usu.edu/smallsat/2020/all2020/14/.
91 A. Cedeño López, V. Grimaudo, A. Riedo, M. Tulej, R. Wiesendanger, R. Lukmanov, P. Moreno-García, E. Lörtscher, P. Wurz, and P. Broekmann, “Three-Dimensional Compositional Analysis of SnAg Solder Bumps using Ultraviolet Femtosecond Laser Ablation Ionization Mass Spectrometry,” Anal. Chem. 92 (2020), 1355−1362. DOI: 10.1021/acs.analchem.9b04530.
2019  
90 A. Riedo, V. Grimaudo, A. Cedeño López, M. Tulej, P. Wurz, and P. Broekmann, Novel 2D binning approach for advanced LIMS depth profiling analysis, JAAS, 34, 1564-1570 (2019); doi: 10.1039/c9ja00138g.
89 R. Wiesendanger, V. Grimmaudo, M. Tulej, A. Riedo, R. Lukmanov, N. Ligterink, H. Shea, and P. Wurz, The LMS-GT Instrument - A new perspective for quantification with the LIMS-TOF measurement technique, JAAS, 34 (2019), 2061–2073; doi: 10.1039/C9JA00235A.
88 R. Wiesendanger, M. Tulej, V. Grimaudo, A. Cedeño López, R. Lukmanov, A. Riedo, and P. Wurz, A method for improvement of mass resolution and isotope accuracy for laser ablation time-of-flight mass spectrometers, J. Chemometrics (2019), 33(1) e3081; doi:10.1002/cem.3081.

 

2018

[87]

[86]

[85]

[84]

 V. Grimaudo, P. Moreno-García, A. Riedo, A. Cedeño López, M. Tulej, R. Wiesendanger, P. Wurz, and P. Broekmann, "Review - Laser Ablation Ionization Mass Spectrometry (LIMS) for Analysis of Electrodeposited Cu Interconnects," J. Electrochem. Soc. 166 (2018), D3190-D3199, DOI: 10.1149/2.0221901jes.

R. Wiesendanger, M. Tulej, V. Grimaudo, A. Cedeño López, R. Lukmanov, and P. Wurz, "A method for improvement of mass resolution and isotope accuracy for laser ablation time of flight mass spectrometers," J. Chemometrics, 2018;e3081 (2018), 10 pages, DOI: 10.1002/cem.3081.

A. Galli, A. Vorburger, P. Wurz, R. Cerubini, and M. Tulej, "First experimental data of sulphur ions sputtering water ice," Icarus 312 (2018), 1-6, DOI: 10.1016/j.icarus.2018.04.029.
[83] M. Tulej, R. Wiesendanger, A. Riedo, G. Knopp, and P. Wurz, "Mass spectrometric analysis of Mg-plasma produced by double-pulse femtosecond laser irradiation," Jou. Anal. At. Spec. 33 (2018), 1292-1303, DOI: 10.1039/C8JA00036K. (+Cover).
[82] P. Moreno-García, V. Grimaudo, A. Riedo, A. Cedeño López, R. Wiesendanger, M. Tulej, C. Gruber, E. Lörtscher, P. Wurz and P. Broekmann, "Insights into Laser Ablation Processes of Heterogeneous Samples: Toward Analysis of Through-Silicon-Vias," Anal. Chem. 90(11), (2018), 6666-6674, DOI: 10.1021/acs.analchem.8b00492.
[81] V. Grimaudo, P. Moreno-García, A. Cedeño López, A. Riedo, R. Wiesendanger, M. Tulej, C. Gruber, E. Lörtscher, P. Wurz and P. Broekmann, Depth profiling and Cross-sectional Laser Ablation Ionization Mass Spectrometry Studies on Through-Silicon-Vias (TSVs), Anal. Chem. (2018), in press.
[80] R. Wiesendanger, V. Grimaudo, P. Moreno, A. Cedeño López, A. Riedo, M. Tulej, A. Neubeck, M. Ivarsson, D. Wacey, H. Shea and P. Wurz, Chemical and optical identification of micrometre sized 1.9 billion-year-old fossils by combining a miniature LIMS system with an optical microscope, Astrobiology, (2018), DOI: 10.1089/ast.2017.1780.
[79] V. Grimaudo, P. Moreno-García, A. Cedeño López, A. Riedo, R. Wiesendanger, M. Tulej, C. Gruber, E. Lörtscher, P. Wurz and P. Broekmann, Combining Anisotropic Etching and PDMS Casting for Three-Dimensional Analysis of Laser Ablation Processes, Anal. Chem. 90(4), (2018), 2692-2700, DOI: 10.1021/acs.analchem.7b04539.
[78] S. Meyer, M. Tulej, and P. Wurz, A Low Energy Ion Beam Facility for Mass Spectrometer Calibration: First Results, Rev. Sci. Instr. 89, 013305 (2018), 7 pages, DOI: 10.1063/1.5006528.
[77] A. Cedeño López, V. Grimaudo, P. Moreno-García, A. Riedo, M. Tulej, R. Wiesendanger, P. Wurz and P. Broekmann, Femtosecond laser ablation ionization mass spectrometric approaches for chemical depth-profiling analysis of lead-free Sn solder bumps with minimized side-wall contributions, J. Anal. At. Spec. 33 , 283-293(2018), DOI: 10.1039/c7ja00295e.
[76] D. Lasi, M. Tulej, M.B. Neuland, P. Wurz, T.S. Carzaniga, K.P. Nesteruk, S. Braccini, and H.R. Elsener, Testing the Radiation Hardness of Thick-Film Resistors for a Time-Of-Flight Mass Spectrometer at Jupiter with 18 MeV Protons, IEEE Trans. Nucl. Sc. (2018), in press, DOI: 10.1109/NSREC.2017.8115474.
[75] R.G. Fausch, P. Wurz, M. Tulej, J. Jost, P. Gubler, M. Gruber, D. Lasi, C. Zimmermann, and T. Gerber, "Flight Electronics of GC-Mass Spectrometer for Investigation of Volatiles in the Lunar Regolith," IEEE Aerospace Conference (2018), 1-13, DOI: 10.1109/AERO.2018.8396788.

2017

[74] S. Meyer, A. Riedo, M.B. Neuland, M. Tulej, and P. Wurz, Fully automatic and precise data analysis developed for time-of-flight mass spectrometry, J. Mass Spectr., 52, 580-590 (2017).
[73] R. Wiesendanger, M. Tulej, A. Riedo, S. Frey, H. Shea, and P. Wurz, Improved detection sensitivity for heavy trace elements using a miniature laser ablation ionisation mass spectrometer, J. Anal. At. Spec. 32 , 2182-2188 (2017), DOI: 10.1039/c7ja00193b.
[72] A. Galli, A. Vorburger, P. Wurz, A. Pommerol, R. Cerubini, B. Jost, O. Poch, M. Tulej, and N. Thomas, 0.2 to 10 keV electrons interacting with water ice: radiolysis, sputtering, and sublimation, Icarus 291, 36-45 (2017).
[71] A. Riedo, M. Tulej, U. Rohner, and P. Wurz, High-speed strip-line multi-anode Multichannel Plate Detector System, Rev. Sc. Instr. 88 , 045114 (2017), DOI: 10.1063/1.4981813.
[70] A. Galli, A. Vorburger, P. Wurz, and M. Tulej, Sputtering of water ice films: a re-assessment with singly and doubly charged oxygen and argon ions, molecular oxygen, and electrons, Icarus 291, 36-45(2017).
[69] V. Grimaudo, P. Moreno-García, A. Riedo, S. Meyer, M. Tulej, M.B. Neuland, C. Gütz, S. Waldvogel, P. Wurz, and P. Broekmann, 3D chemical imaging of ternary Cu-Sn-Pb alloys using Femtosecond Laser Ablation/Ionization Mass Spectrometry, Anal. Chem. 89(3), 1632-1641(2017), DOI: 10.1021/acsanalchem.6b03738.
[68] S. Meyer, M. Tulej, and P. Wurz, Mass spectrometry of planetary exospheres at high relative velocity: direct comparison of open- and closed source measurements, Geosci. Instr. Method. Data Syst. 6(1), (2017) 1-8, doi:10.5194/gi-2016-28.
[67] D. Lasi, M. Tulej, S. Meyer, M. Lüthi, A. Galli, D. Piazza, P. Wurz, D. Reggiani, H. Xiao, R. Marcinkowski, W. Hajdas, A. Cervelli, S. Karlsson, T. Knight, M. Grande, and S. Barabash, Shielding an MCP detector for a space-borne mass spectrometer against the harsh radiation environment in Jupiter's Magnetosphere, IEEE Trans. Nucl. Sc. 64(1), 605-613(2017), DOI: 10.1109/TNS.2016.2614040.

2016

[66] A. Galli, A. Vorburger, A. Pommerol, P. Wurz, B. Jost, O. Poch, Y. Brouet, M. Tulej, and N. Thomas, Surface charging of thick porous water ice layers relevant for ion sputtering experiments, Planet. Sp. Science, 126, 63-71(2016).
[65] P. Moreno-García, V. Grimaudo, A. Riedo, M. Tulej, M.B. Neuland, P. Wurz, and P. Broekmann, Towards matrix-free femtosecond-laser desorption mass spectrometry for in situ space research, Rapid Communications in Mass Spectrometry 30, 1031-1036(2016), DOI: 10.1002/rcm.7533.
[64] M. Tulej, S. Meyer, M. Lüthi, D. Lasi, A. Galli, D. Piazza, L. Desorgher, D. Reggiani, W. Hajdas, S. Karlsson, L. Kalla and P. Wurz, Experimental investigation of the radiation shielding efficiency of a MCP detector in the radiation environment near Jupiter's moon Europa, Nucl. Instr. Meth. B, 383, 21-31(2016).
[63] M.B. Neuland, V. Grimaudo, K. Metzger, P. Moreno-García, A. Riedo, M. Tulej, P. Broekmann and P. Wurz Quantitative measurement of the chemical composition of geological standards with a miniature laser ablation/ionization mass spectrometer designed for in situ application in space research, Measurement Science and Technology 27(3),035904 (2016).
[62] P. Moreno-García, V. Grimaudo, A. Riedo, M. Tulej, M.B. Neuland, M. Mohos, P. Wurz, and P. Broekmann, Towards Structural Analysis of Polymeric Contaminants in Electrodeposited Cu films, Electrochimica Acta (2016), doi.org/10.1016/j.electacta.2016.03.123.
[61] A. Neubeck, M. Tulej, M. Ivarsson, C. Broman, A. Riedo, P. Wurz, and S. Bengtson, Mineralogical determination in situ of a highly heterogeneous material using a miniaturized laser ablation mass spectrometer with high spatial resolution, Int. J. Astrobiol. 15, 133-146 (2016), DOI: 10.1017/S1473550415000269.
[60] A. Riedo, V. Grimaudo, P. Moreno-García, M.B. Neuland, M. Tulej, P. Wurz, and P. Broekmann, Laser Ablation/Ionisation Mass Spectrometry: Sensitive and quantitative chemical depth profiling of solid materials, Chimia International Journal for Chemistry, 70, 268-273 (2016), doi.org/10.2533/chimia.2016.268.

2015

[59] A. Riedo, V. Grimaudo, P. Moreno-García, M.B. Neuland, M. Tulej, P. Wurz, and P. Broekmann, High depth-resolution laser ablation chemical analysis of additive-assisted Cu electroplating of microchip architectures, Journal of Analytical Atomic Spectrometry 30, 2371 (2015), DOI: 10.1039/C5JA00295H.
[58] M. Tulej, S. Meyer, M. Lüthi, D. Lasi, A. Galli, L. Desorgher, W. Hajdas, S. Karlsson, L. Kalla, and P. Wurz, Detection efficiency of microchannel plates for e– and π– in the momentum range from 17.5 to 345 MeV/c, Rev. Sci. Instr. Art. No 041508RSI (2015), doi: 10.1063/1.4928063.
[57] M. Tulej, A. Neubeck, M. Ivarsson, A. Riedo, M.B. Neuland, S. Meyer, and P. Wurz, Chemical composition of micrometre-sized filaments in an aragonite host by a miniature laser ablation/ionisation mass spectrometer, Astrobiology, 15, 1-14 (2015) doi:10.1089/ast.2015.1304.
[56] V. Grimaudo, P. Moreno-García, A. Riedo, M.B. Neuland, M. Tulej, P. Broekmann, and P. Wurz, High-resolution chemical depth profiling of solid material using a miniature laser ablation/ionization mass spectrometer, Anal. Chem. 87, 2037−2041 (2015), DOI:10.1021/ac504403j.
[55] L. Hofer, P. Wurz, A. Buch, M. Cabane, P. Coll, D. Coscia, M. Gerasimov, D. Lasi, A. Sapgir, C. Szopa, and M. Tulej, Prototype of the gas chromatograph - mass spectrometer to investigate volatile species in the lunar soil for the Luna-Resurs mission, Planet. Sp. Sci., 111 126–133(2015).

2014

[54] W. Hajdas, L. Desorgher, K. Deiters, D. Reggiani, Th. Rauber, M. Tulej, P. Wurz, M. Luethi, K. Wojczuk, and P. Kalaczynski, High Energy Electron Radiation Exposure Facility at PSI, J. Appl. Math. Phys. 2, 910–917 (2014).
[53] M. Tulej, A.Riedo, M. B. Neuland, S. Meyer, P. Wurz, N. Thomas, V. Grimaudo, P. Moreno‐García, P. Broekmann, A. Neubeck, M. Ivarsson, CAMAM: A Miniature Laser Ablation Ionisation Mass Spectrometer and Microscope-Camera System for In Situ Investigation of the Composition and Morphology of Extraterrestrial Materials, Geostand. Geoanal. Res, 38, 441–466 (2014).
[52] M. B. Neuland, S. Meyer, K. Mezger, A. Riedo, M. Tulej, and P. Wurz, Probing the Allende meteorite with a miniature Laser-Ablation Mass Analyser for space application, Planet. Sp. Sci. 101, 196–209 (2014).

2013

[51] A. Riedo, M. Neuland, S. Meyer, M. Tuleja, and P. Wurz, Coupling of LMS with fs-laser ablation ion source: elemental and isotope composition measurements, J. Anal. At. Spectrom., 28, 1256 (2013); doi: 10.1039/C3JA50117E. Feature article.
[50] A. Riedo, A. Bieler, M. Neuland, M. Tulej and P. Wurz, Performance evaluation of a miniature laser ablation time-of-flight mass spectrometer designed for in situ investigations in planetary space research, J. Mass. Spectrom., 2013, 48, i.; doi: 10.1002/jms.3157; Feature article.
[49] A. Riedo, A. Bieler, M. Neuland, M. Tulej and P. Wurz, Performance evaluation of a miniature laser ablation time-of-flight mass spectrometer designed for in situ investigations in planetary space research, J. Mass. Spectrom., 48, 1-15(2013); doi: 10.1002/jms.3104.
[48]  A. Riedo, S. Meyer, B. Heredia, M. Neuland, A. Bieler, M. Tulej, I. Leya, M. Iakovleva, K. Mezger and P. Wurz, Planet. Space Scie., Highly accurate isotope composition measurements by a miniature laser ablation mass spectrometer designed for in situ investigations on planetary surfaces, 2013, dx.doi.org/10.1016/j.pss.2013.09.007.

2012

[47] M.B. Neuland, S. Meyer, A. Riedo, M. Tulej, P. Wurz and K. Mezger, Planet. Space Scie., Probing the Allende meteorite with LMS, a miniature Laser-Ablation Mass Analyser for space application, 101 (2014), 196–209.
[46] P. Wurz, D. Abplanalp, M. Tulej, and H. Lammer, A Neutral Gas Mass Spectrometer for the Investigation of Lunar Volatiles, Planet. Sp. Science 74(1), 264-269 (2012).
[45] M. Tulej, A. Riedo, M. Iakovleva, and P. Wurz, On applicability of a miniaturized laser ablation time of flight mass spectrometer for measurements of trace elements, Int. J. Spectrosc. (2012) Article ID 234949, doi:10.1155/2012/234949.
[44] P. Wurz, D. Abplanalp, M. Tulej, M. Iakovleva, V. A. Fernandes, A. Chumikov, and G. G. Managadze Mass spectrometric analysis in planetary science: investigation of the surface and the atmosphere, Sol. Sys. Res. 46, 408-422 (2012); Astronomicheskij Viestnik 46(6), 442-459 (2012).

2011

[43] F.J. Mazzotti, R. Raghunandan, A.M. Esmail, M. Tulej, and J.P. Maier, Characterization of C4H in the A(2)Pi and X-2 Sigma(+) states by double resonance four-wave mixing, J. Chem. Phys. 134, 164303(2011); doi: 10.1063/1.3578188.
[42] M. Tulej, F.M. Mazzotti, and J.P. Maier, Two-Color Photodetachment Study of the A(3)Pi-X-3 Sigma(-) Origin Band of C5H-, J. Phys. Chem. A, 115, 6878-6881(2011); doi: 10.1021/jp111722g.
[41] M. Tulej, M. Iakovleva, I. Leya, and P. Wurz, A miniature mass analyser for in situ elemental analysis of planetary material: performance studies, Anal. Bioanal. Chem., 399. 2185-2200(2011); doi: 10.1007/s00216-010-4411-3.

2010

[40] E.W. Guenther, J. Cabrera, A. Erikson, M. Fridlund, H. Lammer, A. Milillo, A. Mura, H. Rauer, J. Schneider, M. Tulej, Ph. von Paris, and P. Wurz, Constraints on the exosphere of CoRoT-7b, Astron. & Astrophys. 525, A24 (2011); doi 10.1051/0004-6361/201014868.
[39] G.G. Managadze, P. Wurz, R.Z. Sagdeev, A.E. Chumikov, M. Tuley, M. Yakovleva, N.G. Managadze, and A.L. Bondarenko, Study of the main geochemical characteristics of Phobos regolith using laser time-of-flight mass spectrometry, Sol. Sys. Res.  44, 376(2010).
[38] A. Riedo, P. Wahlström, J.A. Scheer, P. Wurz, and M. Tulej, Effect of long duration UV irradiation on diamond-like carbon surfaces in the presence of a hydrocarbon gaseous atmosphere, J. Appl. Phys. 108 114915(2010); doi: 10.1063/1.3517832.
[37] M. Tulej, G. Knopp, T. Gerber, and P. P. Radi, Degenerate and two-color resonant four wave mixing of C2- in a molecular beam environment, J. Raman. Spectrosc. 41, 853-858(2010); doi: 10.1002/jrs.2638.
[36] M. Tulej, T. Pino, M. Pachkov, and J. P. Maier, Electronic transitions of the C5H-, Mol. Phys. 108, 865-871(2010); doi: 10.1080/00268970903501691.
[35] R. Chauhan, F.J. Mazzotti, R. Raghunandan, M. Tulej, P.P. Radi and J.P. Maier, Rotationally resolved ground state vibrational levels of HC2S studied by two-color resonant four wave mixing, J. Phys. Chem. A, 113, 13402(2010); doi: 10.1021/jp909738n.

2009

[34] R. Raghunandan, F.J. Mazzotti, R. Chauhan, M. Tulej, and J.P. Maier, Selective detection of radicals and ions in a slit-jet discharge by degenerate and two-color four-wave mixing, J. Phys. Chem. A, 113, 13402-13406(2009); doi: 10.1039/b712737e.

2008

[33] F.J. Mazzotti, R. Chauhan, Z. Jamshidi, M. Tulej, P.P. Radi, and J.P. Maier, The A2Π3/2 - X2Π3/2 electronic transition of HC4S isotopologues, Mol. Phys., 106, 2709-2715(2008); doi: 10.1080/00268970802656984.
[32] F.J. Mazzotti, E. Achkasova, R. Chauhan, M. Tulej, P.P. Radi, and J.P. Maier, Electronic spectra of radicals in a supersonic slit-jet discharge by degenerate and two-color four-wave mixing, PCCP, 10, 136-141(2008); doi:10.1039/b712737e.

2007

[31] F.J. Mazzotti, E. Achkasova, R. Chauhan, M. Tulej, P.P. Radi, and J.P. Maier, Electronic spectra of radicals in a supersonic slit-jet discharge by degenerate and two-color four-wave mixing, PCCP, 10, 136-141(2008); doi:10.1039/b712737e 2007
[30] M. Tulej, M. Meisinger, G. Knopp, A.M. Walser, T. Gerber, and P.P.Radi, Multiplex spectroscopy of stable and transient species in a molecular beam, J. Raman. Spectrosc., 38, 1022(2007).
[29] G. Knopp, A. M. Walser, P. P. Radi, P. Beaud, M. Tulej, and T. Gerber, Investigation of Coriolis perturbations on the ro-vibrational v1 band of H2CO with fs-CARS, Ultrafast phenomena XV, 88, 567(2007).
[28] A. M. Walser, P. P. Radi, P. Beaud, M. Tulej, T. Gerber and G. Knopp, Time-resolved investigations of the v1 ro-vibrational Raman band of H2CO with fs-CARS, J. Raman Spectrosc. 38, 147(2007).

2006

[27] M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Beaud, T. Gerber, P. P. Radi, Comparative study of degenerate four-wave mixing and cavity ringdown signal intensities of formaldehyde in a molecular beam, J. Raman Spectrosc. 37, 680(2006).
[26] M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Beaud, T. Gerber, P.P. Radi, Degenerate and two-color resonant four-wave mixing applied to the rotational characterization of high-lying vibrational states of formaldehyde (Ã1A2 ), J. Raman Spectrosc. 37, 376(2006).
[25] D. Cannavo, G. Knopp, P. Radi, P. Beaud, M. Tulej, T. Gerber, P. Bodek, and A. Wokaun, Neutral molecular ZnX (X=O, OH, N) compounds in a molecular beam, J. Mol. Struct. 782, 67(2006).

2005

[24] B. Bougie, M. Tulej, T. Dreier, N.J. Dam, T. Gerber, and J.J. ter Meulen, Optical diagnostics of Diesel spray injections and combustion in a high-pressure high temperature cell, Appl. Phys. B 80, 1039(2005).

2004

[23] M. Tulej, G. Knopp, P. Beaud, T. Gerber, P. P. Radi, Photo-fragment excitation spectroscopy (PHOFEX) by DFWM and LIF: propensities for H2CO -> HCO+H near the S0 threshold, J. Raman Spectrosc. 36, 109(2005)2004.
[22] G. Knopp, P. Beaud, P. Radi, M. Tulej, and T. Gerber, Collision-induced line broadening and mixing probed by femtosecond CARS, Asian Chemistry Letters 7, 237(2004).
[21] G. Knopp, P. Beaud, H., P. Radi, M. Tulej, and T. Gerber, collision induced rotational energy transfer. A new scaling law probed by fs CARS, Femtochemistry and femtobiology: ultrafast events in molecular science, 69(2004).

2003

[20] T. Pino, M. Pachkov, M. Tulej , R. Xu , M. Jungen , J. P. Maier, Feshbach resonances of the C3H− anion: laser autodetachment spectroscopy and ab initio calculations, Mol. Phys., 102, 1881(2003).
[19] G. Knopp, K. Kirch, P. Beaud, K. Mishima, H. Spitzer, P. Radi, M. Tulej, and T. Gerber Determination of the ortho/para Deuterium concentration ratio with femtosecond CARS, J. Raman Spectrosc. 34, 989(2003).
[18] P. P. Radi, M. Tulej, G. Knopp, P. Beaud, and T. Gerber, Stimulated emission pumping by two-color resonant four wave mixing: rotational characterization of vibrationally excited HCO (X2A’), J. Raman Spectrosc. 34, 1037(2003).
[17] P. Beaud, T. Gerber, P. P. Radi, M. Tulej, and G. Knopp, Rotationally inelastic collisions between N2 and rare gases: an extension of the angular momentum scaling law, Chem. Phys. Lett. 373, 251(2003).
[16] G. Knopp, P. Radi, M. Tulej, T. Gerber, and P. Beaud, Collision induced rotational energy transfer probed by time-resolved CARS, J. Chem. Phys. 118, 8223(2003).

2002

[15] M. V. Pachkov, T. Pino, M. Tulej, and J.P. Maier, Rotational structure of the origin band of the 1A' - X1 Σ+ of C4H- and C4D-, Mol. Phys. 101, 583 (2003) 2002.
[14] G. Knopp, P. Beaud, P. Radi, M. Tulej, B. Bougie, D. Cannavo, and T. Gerber, Pressure dependent N2 Q-branch fs-CARS measurements, J. Raman Spectrosc. 33, 861(2002).

2001

[13] T. Pino, M. Tulej, F.Güthe, M. Pachkov, and J.P. Maier, Photodetachment spectroscopy of the C2nH-(n=2-4) anions in the vicinity of their electron detachment threshold, J. Chem. Phys. 114, 6126(2002)2001.
[12] M. Tulej, F. Güthe, M. Pachkov, K. Tikhomirov, R. Xu, M. Jungen, and J.P. Maier, Feshbach states of the propadienylidene anion C3H2, Phys. Chem. Chem. Phys. 3, 4674(2001).
[11] M. V. Pachkov, T. Pino, M. Tulej, and J. P. Maier, Electronic transition of C3H- in the vicinity of the lowest photodetachment threshold, Mol. Phys. 99, 1397(2001).

2000

[10] F. Guthe, M. Tulej, M.V. Pachkov and J. P. Maier, Photodetachment spectrum of C3H2 anion: The role of dipole bound states for electron attachment in interstellar clouds, Astrophys. J. 555, 466(2001)2000.
[9] N. M. Lakin, M. Pachkov, M. Tulej, J.P. Maier, G. Chambaud, and P. Rosmus, Theoretical and experimental study of the A2Πu-X2Πg band system of C7-, J. Chem. Phys. 113, 9586(2000).
[8] N. M. Lakin, F. Güthe, M. Tulej, M. Pachkov, and J. P. Maier, Spectroscopy of excited states of carbon anions above the photodetachment threshold, Molecular Photoionization, Faraday Discuss. 115, 383(2000).

1998

[7] M. Tulej, J. Fulara, A. Sobolewski, M. Jungen, and J. P. Maier, Electronic transitions of C3 above the photodetachment threshold, J. Chem. Phys. 112 3747(2000) 1999
[6] M. Tulej, F. Güthe, M. Schneiter, M. V. Pachkov, D. A. Kirkwood, G. Fisher, and J. P. Maier, Electronic Spectra of Carbon Chain Anions C 2n-1 H-, (n=5-8), J. Phys. Chem. A 103, 9712(1999).
[5] D. A. Kirkwood, M. Tulej, M. V. Pachkov, F. Güthe, M. Schneiter, M. Grutter, M. Wyss, G. Fisher, and J. P. Maier, Electronic spectra of carbon chain anions C2nH- (n=5- 12), J. Chem. Phys. 111, 1(1999).

1998

[4] G. Kolek, G. Gajdek, T. Motylewski, M. Tulej, and J. Najbar, The LIF excitation spectrum of jet-cooled 2,6-dicyano-3,5-dimethylaniline, J. Fluorescence 9, 123(1999) 1998
[3] M. Tulej, D.A. Kirkwood, M. Pachkov, and J. P.Maier, Gas-phase electronic transitions of carbon chain anions coinciding with Diffuse Interstellar Bands, Astrophys. J. 506, 69(1998)
[2] D. A. Kirkwood, H. Linnartz, M. Grutter, O. Dopfer, T. Motylewski, M. V. Pachkov, M. Tulej, M. Wyss, and J. P. Maier, Electronic spectroscopy of carbon chains and relevance to astrophysics, Chemistry and Physics of Molecules and Grains in Space, Faraday Discuss. 109, 109(1998).

1992

[1] A. Waloszek, M. Tulej, and S. Wieckowski, Spectroscopic analysis of chlorophyll bleaching in heat- pretreated thylacoid membranes isolated from cucumber cotyledons, Photosynthetica, 27, 109(1992) II Reviews.

Books and Book Sections

[6] P. Beaud, G. Knopp, P. Radi, M. Tulej, and T. Gerber, Collision-induced line broadening and mixing probed by femtosecond CARS, in Time Resolved Vibrational Spectroscopy, S. Califano, P. Foggi, R. Righini, Eds. (Leo S. Olschki, Florence, 2005), p. 17.
[5] G. Knopp, P. Beaud, P. Radi, M. Tulej, and T. Gerber, Collision induced rotational energy transfer. A new scaling law probed by fs CARS, in Femtochemistry and Femtobiology: Ultrafast Dynamics in Molecular Science, M.M. Martin and J.T. Hynes, Eds.(Elsevier, 2004), p. 69.
[4] G. Knopp, P. Beaud, P. Radi, M. Tulej, and T. Gerber, Femtosecond photodissociation of the ethyl radical C2H5, in Femtochemistry and Femtobiology: Ultrafast Dynamics inMolecular Science, A. Douhal and J. Santamaria, Eds., World Scientific, Singapore, 117(2002).
[3] T. Gerber, G. Knopp, P. Beaud, P. Radi, M. Tulej, Application of spectroscopic techniques in the VUV to combustion relevant molecules, in Nouvelles perspectives pour la chimie organique et la biochimie dans le VUV : processus réactionnels, chiralité et thermochimie, Amphi Lehmann, Bât 200 du LAL, campus d’Orsay, 2001.
[2] M. Tulej and P. Rzadek, Spectroscopy of internally cold molecules: supersonic jet cooling and examples, in Seminars on Photochemistry and Laser Spectroscopy (1994), J. Najbar, ed., Jagiellonian University Press, Krakow, Poland.
[1] I. Jezowska and M. Tulej, Radon as the main radioactive source in the nature, in Applications of Physics in Ecological Problems, A. Hrynkiewicz and A. Krolas, eds., Jagiellonian University Press, Krakow (1989).

Conference Proceedings, Extended Abstracts and Reports

 Extended Abstracts (2011 - present)
[37] K. Kipfer, N. Ligterink, L. Schwander, C. de Koning, P. K. Schmidt, V. Grimaudo, R. Lukmanov, M. Tulej, J. Bouwman, A. Riedo, and . Wurz, Towards detecting carbon chemistry on planetary objects with the ORIGIN space instrument, EPSC2021-711.
[36] P. Wurz, N. F. W. Ligterink, V. Grimaudo, P. Moreno-García, R. Lukmanov, M. Tulej, I. Leya, R Lindner, C. S. Cockell, P. Ehrenfreund, A. Riedo, A novel and compact laser desorption mass spectrometry system for sensitive in situ detection of aminoacids on extraterrestrial surfaces. In the Proceedings Book of the 11th Moscow Solar System Symposium 2020, 94-96, Oct. 2020, IKI Moscow, Russia, Abstract:11MS3-AB-03.
[35] R. Fausch, R.G. Fausch, P. Wurz, M. Tulej, D. Lasi, L. Hofer, A. Buch,M. Cabane, P. Coll, D. Coscia, S. Aseev, M. Zaitsev, M. Gerasimov, A. Sapgir, C. Szopa,
The neutral gas mass spectrometrometer for the Luna-Resurs mission, In the Proceedings Book of the 10th Moscow Solar System Symposium 2019, Oct. 2019, IKI Moscow, Russia, Abstract: 10MS3-PS-59.
[34] R. G. Fausch, P. Wurz, M. Tulej, D. Lasi, L. Hofer, A. Buch, M. Cabane, P. Coll, D. Coscia, S. Aseev, M. Zaitsev, M. Gerasimov, A. Sapgir, C. Szopa, Neutral gas mass spectrometer for the Luna- Resurs mission: status, performance and scientific implications, In the Proceedings Book of the 10th Moscow Solar System Symposium 2018, Oct. 2018, IKI Moscow, Russia, Abstract: 9MS3-MN-11.
[33] M.B. Neuland, A. Riedo, M. Tulej, K. Mezger, P. Wurz, a Miniature laser ablation mass spectrometer for quantitative in situ chemical compositional measurements of rocks and soil on a planetary surface, In the Proceedings Book of the 6th Moscow Solar System Symposium 2015, Oct. 2015, IKI Moscow, Russia, Abstract: 6MS3-pS-17.
[32] M. V. Gerasimov, A. G. Sapgir, M. A. Zaitsev, S. A. Aseev, I. I. Vinogradov, C. Szopa, P. Coll, M. Cabane, D. Coscia, F. Goesmann, P. Wurz, D. Lasi, and M. Tulej, The martian gas-analytic package for the landing platform experiments of the Exomars 2018, In the Proceedings Book of the 5th Moscow Solar System Symposium 2014, Oct. 2014, IKI Moscow, Russia, Abstract: 5MS3-PS-49.
[31] P. Wurz, L. Hofer, M. Tulej, D. Lasi, M. Cabane, D. Cosica, M. Gerasimov and D. Rodinov, Prototype of the gas chromatograph – mass spectrometer to investigate volatile species in the lunar soil for the Luna- Glob and Luna Resurce missions, Proceedings Book of the 4th Moscow Solar System Symposium 2013, Oct. 2013, IKI Moscow, Russia, Abstract: 4ms3-Ps-23.
[30] M. Tulej, M. Yakovleva, P. Wurz and G. G. Managadze, On chemical analysis of solids by miniature laser ablation TOF MS designed for space research, Proceedings Book of the 1th Moscow Solar System Symposium 2010, Oct. 2013, IKI Moscow, Russia, Abstract: 1MS3-5-3.
[29] P. Wurz, M. Yakovleva, M. Tulej and G. G. Managadze, In Situ Mass Spectrometric Analysis in Planetary Science, Proceedings Book of the 2th Moscow Solar System Symposium 2010, Oct. 2013, IKI Moscow, Russia, Abstract: 1MS3-5-2.
[28] A. Riedo, N. F.W. Ligterink, V. Grimaudo, C. de Koning, R. Lukmanov, M. Tulej, and P. Wurz, Direct identification of Amino Acids via fragment patterns using sensitive Laser Desorption Mass Spectrometry, EPSC2020-1080.
[27] M. Tulej, R. Lukmanov, A. Riedo, V. Grimaudo, C. de Koning, P. Wurz, N. F. W. Lightering, A. Neubeck, and M. Ivarsson, Measurements of bio-signature in ancient micrometre-sized fossils with a miniature laser mass spectrometer, EPSC2020-149.
[26] R. Lukmanov, M. Tulej, V. Riedo, N. Ligterink, C. De Koning, A. Riedo, and P. Wurz, In-situ analysis of 1.9 Ga chert with a miniature mass spectrometer for space, EPSC2020-195.
[25] M. Tulej et al., Experimental and modelling studies of interaction of e- beam (10-345 Me V) with materials designed for radiation shielding for the MCP detector on JUICE mission to Jupiter, Collaborative Conference on Beam Physics (CCBP), June 18-22, 2017, Vienna, Austria.
[24] A. Riedo, N. Ligterink, V. Grimaudo, P. Moreno-García, R. Wiesendanger, R. Lukmanov, M. Tulej, P. Wurz, and P. Ehrenfreund, Direct Laser Desorption of Amino Acids using LIMS, EPSC-DPS2019-1520.
[23] R. Lukmanov, M. Tulej, R. Wiesendanger, A. Riedo, and P. Wurz, In-situ analysis of 1.9 Ga chert with a miniature mass spectrometer for space: Chemical profiling of microfossils preserved in the host mineral, EPSC-DPS2019-1299.
[22] R. Fausch, P. Wurz, U. Rohner, and M. Tulej, CubeSatTOF – A 1U High-Performance Time-Of-Flight Mass Spectrometer for Planetary Atmospheres, DPS2019-1774.
[21] A. Galli, A. Vorburger, P. Wurz, M. Tulej, N. F.W. Ligterink, R. Cerubini, A. Oza, M. Rubin, A. Pommerol, and N. Thomas, Laboratory analogues for the icy moons of Jupiter – The added value of a time-of-flight mass spectrometer, EPSC-DPS2019-138.
[20] M. B. Neuland, A. Riedo, M. Tulej, P. Wurz, and K. Mezger, The composition and homogeneity of the Allende matrix, EPSC-DPS2019-541.
[19] R. Fausch, P. Wurz, D. Lasi, M. Tulej, M. Cabane, C. Szopa, A. Sapgir, and M. Gerasimov, In-situ analysis of lunar regolith with the gas chromatograph-neutral gas mass spectrometer on the Luna-Resurs lander, EPSC2018-1028.
[18] M. B. Neuland, S. Frey, A. Riedo, K. Mezger, R. Wiesendanger, M. Tulej, and P. Wurz, In-situ chemical composition measurements with a laser ablation mass spectrometer for space research: Quantitative investigations of meteorites, EPSC2017-799.
[17] M. Tulej, R. Wiesendanger, M., B. Neuland, S. Meyer, P. Wurz, A. Neubeck, M. Ivarsson, V. Riedo, P. Moreno-Garcia, and A. Riedo Miniature laser mass spectrometer and optical microscopy: current capabilities for the quantitative analysis of micro-sized solid materials EPSC2017-707
[16] M. Tulej, R. Wiesendanger, M., B. Neuland, S. Meyer, P. Wurz, A. Neubeck, M. Ivarsson, V. Riedo, P. Moreno-Garcia, A. Riedo, and G. Knopp Detection of bio-signature by microscopy and mass spectrometry, EPSC2017-681.
[15] A. Galli, A. Pommerol, P. Wurz, B. Jost, J.A. Scheer, A. Vorburger, M. Tulej, N. Thomas, M. Wieser, and S. Barabash, Realistic ice sputtering experiments for the surfaces of Galilean moons, EPSC2015-771.
[14] M. Tulej, S. Meyer, M. Lüthi, D. Lasi, A. Galli, P. Wurz, L. Desorgher, K. Wojczuk, S. Karllsson, and L. Kalla, Detection efficiency of microchannel plates to fluxes of high energy electrons similar to that in the Jupiter environment, EPSC2015-782.
[13] M. Tulej, A. Neubeck, M. Ivarsson, M.B. Neuland, A. Riedo, S. Meyer, and P. Wurz, Investigation of micrometre-sized fossils by a laser ablation mass spectrometer designed for in situ space research, EPSC2015-568.[12] M. B. Neuland, K. Mezger, A. Riedo, M. Tulej, and P. Wurz, A miniature laser ablation mass spectrometer for in situ chemical composition investigation of lunar surface, EPSC2015-168. [11] P. Wurz, A. Vorburger, A. Galli, M. Tulej, N. Thomas, Y. Alibert, S. Barabash, M. Wieser, and H. Lammer, Measurement of the Atmospheres of Europa, Ganymede, and Callisto EPSC2014-504. [10] M. B. Neuland, K. Mezger, A. Riedo, M. Tulej, and P. Wurz, A miniature laser ablation mass spectrometer for in situ elemental and isotopic composition measurements of planetary rocks and soils, EPSC2014-362. [9] S. Barabash, P. Wurz, P. Brandt, M. Wieser, M. Holmström, Y. Futaana, G. Stenberg, H. Nilsson, A. Eriksson, M. Tulej, A. Vorburger, N. Thomas, C. Paranicas, D. G. Mitchell, G. Ho, B. H. Mauk, D. Haggerty, J. H. Westlake, M. Fränz, N. Krupp, E. Roussos, E. Kallio, W. Schmidt, K. Szego, S. Szalai, Krishan Khurana, Xianzhe Jia, C. Paty, R. F. Wimmer-Schweingruber, B. Heber, Asamura Kazushi, M. Grande, H. Lammer, T. Zhang, S. McKenna-Lawlor, S. M. Krimigis, Th. Sarris, and D. Grodent, Particle Environment Package (PEP), EPSC2013-709. [8] A. Vorburger, P. Wurz, M. Tulej, N. Thomas, S. Barabash, M. Wieser, and H. Lammer, Investigation of the atmospheres of Europa, Ganymede, and Callisto with PEP/JUICE, EPSC2013-356. [7] M. Tulej, A. Riedo, M. Neuland, S. Meyer, and P. Wurz, Isotopic analysis of planetary solids, EPSC2013-360. [6] M. B. Neuland, S. Meyer, K. Mezger, A. Riedo, M. Tulej, and P. Wurz In situ chemical composition measurements with a miniature laser ablation mass spectrometer for planetary exploration, EPSC2013-232. [5] L. Hofer, D. Lasi, M. Tulej, P. Wurz, M. Cabane, D. Cosica, M. Gerasimov and D. Rodinov, Prototype of the gas chromatograph – mass spectrometer to investigate volatile species in the lunar soil for the Luna-Glob and Luna-Resurs missions, EPSC2013-107.
[4] A. Riedo , M. Neuland , S. Meyer, M. Tulej, and P. Wurz, Accurate Isotope Composition Measurements by a Miniature LMS System Designed for in situ Space Research, Mineralogical Magazine, 77(5) 2062 2013.
[3] P. Wurz, M. Tulej, A. Riedo, and M. Iakovleva, A miniature laser-ablation time-of-flight mass spectrometer for sub-ppm analysis of planetary surfaces, EPSC Abstracts Vol. 6, EPSC-DPS2011-1027-1, 2011 EPSC-DPS Joint Meeting.
[2] G. G. Managadze, P. Wurz, R. Z. Sagdeev, A. E. Chumikov, M. Tulej, M. Iakovleva, N. G. Managadze, and A. L. Bondarenko, Study of the Main Geochemical Characteristics of Phobos’ Regolith Using Laser Time of Flight Mass Spectrometry, EPSC Abstracts Vol. 6, EPSC-DPS2011-1065, 2011 EPSC-DPS Joint Meeting ,2011.
[1] A. Riedo, V.A.S.M. Fernandes, M. Iakovleva, M. Tulej, and P. Wurz, A miniature laser ablation mass spectrometer for space research, 42nd Lunar and Planetary Science Conference, 7 - 11 March abstract no. 1880, 2011

Annual Reports Paul Scherrer Insitute (PSI)

[10] S. Schenker, N. Tylli, R. Bombach, W. Kreutner, W. Hubschmid, M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Radi, P. Beaud, and T. Gerber, Formaldehyde – an important intermediate species in combustion processes, Scientific report 2006, General Energy, Paul Scherrer Institute, March 2007.
[9] A.M. Walser, G. Knopp, P. Beaud, P.P. Radi, M. Tulej, T. Gerber, Time-resolved fs-CARS spectroscopy in the electronic ground state of H2CO in a pressurized rare gas environment Scientific report 2005, Volume V, General Energy, Paul Scherrer Institute, March 2005.
[8] P.P. Radi, M. Tulej, G. Knopp, P. Beaud, T. Gerber, The unimolecular dissociation of H2CO: state specific propensities at the threshold for HCO and H formation. Scientific report 2003, Volume V, General Energy, Paul Scherrer Institute, March 2004.
[7] M. Tulej, B. Bougie, P. Beaud, G. Knopp, P. Radi, T. Gerber, Laser Elastic Scattering (LES) and Laser Induced incandescence (LII) Techniques for soot characterization, Scientific report 2002, Volume V, General Energy, Paul Scherrer Institute, pg. 47 48, March 2003, ISSN 1423 7342.
[6] B. Bougie, M.Tulej, T. Dreier, T. Gerber, In-situ optical diagnostics of diesel spray injection and combustion for engine like conditions, Scientific report 2003, Volume V, General Energy, Paul Scherrer Institute, pg. 66 67, March 2004, ISSN 1423 7342.
[5] B. Bougie, M. Tulej, P. Beaud, G. Knopp, P. Radi, T. Gerber, Laser Elastic Scattering (LES) and Laser Induced incandescence (LII) Techniques for soot characterization, Scientific report 2002, Volume V, General Energy, Paul Scherrer Institute, pg. 47 48, March 2003, ISSN 1423 7342.
[4] P.P. Radi, P. Beaud, T. Gerber, G. Knopp, M. Tulej, Colissional energy transfer in H2CO by double-resonance spectroscopy, PSI Annual Report 2003.
[3] P.P. Radi, A.P. Kouzov, P. Beaud, T. Gerber, G. Knopp, M. Tulej, Quantitative analysis of two-color resonant four wave mixing spectra of the OH radical, PSI Annual Report (2004).
[2] B. Bougie, M. Tulej, P. Beaud, G. Knopp, P. Radi and T. Gerber, Diesel spray penetration studied by simultaneous Mie and shadowgraphy measurements, Scientific report 2002, Volume V, General Energy, Paul Scherrer Institute, pg. 49 50, March 2003, ISSN 1423 7342.
[1] M. Tulej, B. Bougie, T. Gerber, K. Boulouchos, Fuel air mixing: Transient spray combustion – Investigation of fuels and injection strategies, Year 2001 annual report of the International Energy Agency program of research in energy conservation and emissions reduction in combustion, Sandia National laboratory California, U.S.A., pg. 29 34.

Abstracts

[98] M. Föhn, M. Tulej, A. Galli, A. H. Vorburger, D. Lasi, A. Riedo, P. Wurz, P. Brandt, and S. Barabash, Initial Calibration Results of the NIM Flight Spare Mass spectrometer for Exploration of Jupiter’s Icy Moons Exospheres, EGU21-3821. [97] A. Riedo, V. Grimaudo, J. W. Aerts, A. Cedeño López, M. Tulej, P. Ehrenfreund, and P. Wurz, Detection of sulphuric life in Mars analogue material using a miniature LIMS system, EGU2020-20279.
[96] Rustam Lukmanov, Marek Tulej, Andreas Riedo, Niels Ligterink, Valentine Riedo, Coenraad de Koning, and Peter Wurz Chemical identification and automatic spectral classification of Microfossils from the Gunflint chert (1,88 Ga), EGU2020-11096.
[95] M. Tulej, A. Neubeck, R. Lukmanov, V. Grimaudo, A. Riedo, A. Cedeño López, Coenraad, P. de Koning, N. F. W. Ligterink, M. Ivarsson, and P. Wurz Determination of the Ni isotope fractionation in microfossils embedded in the aragonite phase, EGU2020-4248. [94] A. Galli, R. Cerubini, A. Pommerol, P. Wurz, A. Vorburger, M. Rubin, A. Oza, M. Tulej, N. Thomas, and N.F.W. Ligterink, Electron irradiation of water ice samples in the laboratory - Implications for icy moons and comets, EGU2020-3420.
[93] M. Föhn, M. Tulej, A. Galli, A. H. Vorburger, D. Lasi, P. Wurz, P. Brandt, and S. Barabash Development of the NIM Mass spectrometer for Exploration of Jupiter’s Icy Moons Exospheres, EGU2020-2955.
[92] A. Riedo, C. de Koning, A. H. Stevens, A. Cedeño López, M. Tulej, P. Wurz, Ch. S. Cockell, and P. Ehrenfreund, Detection of single cell microbial life artificially inoculated in mudstone analogue material using a miniature LIMS system, EGU2019-16763.
[91] M. Tulej, R. Lukmanov, R. Wiesendanger, V. Grimaudo, A. Cedeño López, A. Riedo, and P. Wurz, Capabilities of a space-born laser mass spectrometer for detection of planetary microsized-fossils, EGU2019-10944.
[90] R. Fausch, P. Wurz, M. Tulej, and M. Gerasimov, Expected performance of the two flight units of the Neutral Gas Mass Spectrometer for the Luna-Resurs lander in the lunar exosphere, EGU2019-5010.
[89] M. Föhn, M. Tulej, A. Galli, A. H. Vorburger, D. Lasi, P. Wurz, P. Brandt, and S. Barabash Mass spectrometry for Exploration of Jupiter’s Icy Moons Exospheres: Development of the NIM Instrument, EGU2019-4203.
[88] R. Lukmanov, M. Tulej, R. Wiesendager, A. Riedo, V. Riedo, and P. Wurz, Chemical identification of microfossils from Gunflint chert (1.88 Ga) with spaceborne Mass Spectrometer, EGU2019-12772.
[87] R. Fausch, P. Wurz, M. Tulej, L. Hofer, A. Buch, M. Cabane, P. Coll, D. Coscia, M. Gerasimov, D. Lasi, A. Sapgir, C. Szopa, and M. Zaitsev, Scientific performance of the Gas Chromatograph Neutral Gas Mass Spectrometer for the Luna-Resurs Mission, EGU2018-1323.
[86] P. Wurz, S. Meyer, A. Galli, M. Tulej, A. Vorburger, D. Lasi, D. Piazza, M. Lüthi, P. Brandt, and S. Barabash, The Neutral Gas and Ion Mass Spectrometer of the PEP Experiment on the JUICE Mission, EGU2018-10091.
[85] R. Wiesendanger, P. Wurz, M. Tulej, D. Wacey, A. Neubeck, V. Grimaudo, A. Riedo, P. Moreno, A. Cedeno Lopez, and M. Ivarsson, In situ detection of microbial fossils on planetary bodies by combined laser mass spectrometry and optical microscopy, EGU2018-12440.
[84] M. B. Neuland, K. Mezger, P. Wurz, A. Riedo, and M. Tulej, The composition and homogeneity of the Allende matrix, EGU2018-18322.
[83] M. Tulej, R. Wiesendanger, R. Lukmanov, P. Wurz, A. Neubeck, M. Ivarsson, V. Riedo, P. Moreno-Garcia, A. Cedeno-Lopez, and A. Riedo, On in situ detection of micro-sized fossils on planetary surfaces, EGU2018-13303.
[82] A. Riedo, R. Wiesendanger, M. Tulej, P. Wurz, and P. Ehrenfreund, Chemical analysis of Permafrost samples using a miniature LIMS system designed for in situ chemical analysis of solids on planetary surfaces, EGU2018-13086.
[81] M. Tulej, P. Wurz, S. Meyer, D. Lasi, M. Lüthi, A. Galli, D. Piazza, L. Desorgher, W. Hajdas, D. Reggiani, S. Karlsson, and L. Kalla, Experimental investigation of the radiation shielding of a MCP detector in the radiation environment near Europa, EGU2016-12896.
[80] A. Galli, A. Vorburger, A. Pommerol, P. Wurz, B. Jost, O. Poch, Y. Brouet, M. Tulej, and N. Thomas, Surface charging of thick porous water ice layers in ion sputtering experiments: implications for the surfaces of icy moons, EGU2016-4017
[79] M. B. Neuland, V. Grimaudo, K. Mezger, P. Moreno-García, A. Riedo, M. Tulej, and P. Wurz, A miniature laser ablation mass spectrometer for quantitative in situ chemical composition investigation of lunar surface, EGU2016-1977.
[78] P. Moreno-García, V. Grimaudo, A. Riedo, M. B. Neuland, M. Tulej, P. Broekmann, and P. Wurz, Chemical analysis of solid materials by a LIMS instrument designed for space research: 2D elemental imaging, sub-nm depth profiling and molecular surface analysis, EGU2016-12843.
[77] S. Meyer, M. Tulej, and P. Wurz, Development of a mass spectrometer for planetary exosphere exploration: from simulations to a flight like design, EGU2017-3594. [76] M. Tulej, R. Wiesendanger, M. Neuland, S. Meyer, P. Wurz, A. Neubeck, M. Ivarsson, V. Riedo, P. Moreno-Garcia, A. Riedo, and G. Knopp, Chemical analyses of micrometre-sized solids by a miniature laser ablation/ionisation mass spectrometer (LMS), EGU2017-8859.
[75] M. B. Neuland, K. Mezger, M. Tulej, S. Frey, A. Riedo, P. Wurz, and R. Wiesendanger, The chemical composition and mineralogy of meteorites measured with very high spatial resolution by a laser mass spectrometer for in situ planetary research, EGU2017-3935.
[74] S. Meyer, M.Tulej, and P. Wurz Mass spectrometry of planetary exospheres at high relative velocity: direct comparison of open- and closed source measurements, EGU2016-8536.
[73] S. Frey, M. B. Neuland, V. Grimaudo, P. Moreno-García, A. Riedo, M. Tulej, P. Broekmann, and P. Wurz, Laser-based mass spectrometry for in situ chemical composition analysis of planetary surfaces, EGU2016-14689. [72] A. Riedo, V. Grimaudo, P. Moreno-García, M. B. Neuland, M.T ulej, P. Broekmann, and P. Wurz, Chemical analysis of solids with sub-nm depth resolution by using a miniature LIMS system designed for in situ space research, EGU2015-9177.
[71] M. Tulej, A. Neubeck, M. Ivarsson, M. Brigitte Neuland, A. Riedo, and P. Wurz, Investigation of micrometre-sized fossil by laser mass spectrometer (LMS) designed for in situ space research, EGU2015-6892.
[70] Maike Brigitte Neuland, Klaus Mezger, Andreas Riedo, Marek Tulej, and Peter Wurz, Chemical and mineralogical analyses of planetary rocks using a laser ablation mass spectrometer for in situ space research, EGU2015-5938.
[69] André Galli, Antoine Pommerol, Audrey Vorburger, Peter Wurz, Marek Tulej, Jürgen Scheer, Nicolas Thomas, Martin Wieser, and Stas Barabash, The first laboratory measurements of sulfur ions sputtering water ice, EGU2015-3752.
[68] Andreas Riedo, Pavel Moreno-García, Valentine Grimaudo, Maike Brigitte Neuland, Marek Tulej, Peter Broekmann, and Peter Wurz, Miniature LIMS system designed for sensitive in situ measurements of organic deposits in materials on solar system objects, EGU2014-11164. [67] L. Hofer, P. Wurz, A. Buch, M. Cabane, P. Coll, D. Coscia, M. Gerasimov, D. Lasi, A. Sapgir, C. Szopa, and M. Tulej, Prototype of the gas chromatograph - mass spectrometer to investigate volatile species in the lunar soil for the Luna-Resurs mission, EGU2014-7148.
[66] A. Galli, P. Wurz, A. Vorburger, M. Tulej, A. Pommerol, J. Scheer, N. Thomas, O. Mousis, S. Barabash, M. Wieser, and H. Lammer, Surfaces and exospheres of the icy Galilean moons - an integral approach, EGU2014-3517.
[65] P. Wurz, M. Tulej, A. Vorburger, N. Thomas, S. Barabash, M. Wieser, and H. Lammer, Investigation of the atmospheres of Europa, Ganymede, and Callisto with PEP/JUICE, EGU2013-8439.
[64] M. Tulej, A. Riedo, M. Neuland, S. Meyer, P. Wurz, and N. Thomas, CAMAM instrument suite for MarcoPolo-R mission to an asteroid, EGU2013-4489.
[63] A. Riedo, M. Neuland, S. Meyer, M. Tulej, and P. Wurz, Highly accurate isotope measurements of surface material on planetary objects in situ, EGU2013-3544
[62] P. Wurz, L. Hofer, M. Tulej, D. Lasi, M. Cabane, D. Cosica, M. Gerasimov, and D. Rodinov, Investigation of the volatile species in the lunar soil, EGU2013-12718.
[61] A. Riedo, M.B. Neuland, S. Meyer, M. Tulej, and P. Wurz, A miniature LIMS system for accurate isotope composition measurement in‐situ planetary surfaces, HEMS, 2013.
[60] M. B. Neuland, A. Riedo, S. Meyer, K. Mezger, M.Tulej, and P. Wurz, In Situ Chemical Composition Measurements of Planetary Surfaces with a Laser Ablation Mass Spectrometer, EGU2013-1288.
[59] M. Tulej and CAMAM Team, CAMAM suit for MarcoPolo-R mission, 4th MarcoPolo-R Symposium: 16-17 January 2013, Barcelona (Spain). [58] M. Tulej, A. Riedo, S. Meyer, M. Iakovleva, M. Neuland, and P. Wurz, A miniaturised laser ablation/ionisation analyser for investigation of elemental/isotopic composition with the sub-ppm detection sensitivity, EGU2012-12577. [57] M. Tulej, A. Riedo, S. Meyer, M. Iakovleva, M. Neuland, and P. Wurz, A miniaturised laser ablation/ionisation analyser for investigation of elemental/isotopic composition with the sub-ppm detection sensitivity, EGU2012-12577.
[56] M. Tulej and CAMAM Team, Laser mass spectrometer for investigation of astroids’ regolith, 3rd MarcoPolo-R symposium: 26 March 2012, Manchester, UK.
[55] M. Tulej, A. Riedo, S. Meyer, M. Iakovleva, M. Neuland, and P. Wurz, A miniature laser ablation/ionisation analyser for investigation of elemental/isotopic composition with the sub-ppm detection sensitivity, Geophys. Res. Abstr., Vol. 14, EGU 2012-12577-1, 2012, EGU General Assembly 2012.
[54] M. Tulej, M. Iakovleva, and P. Wurz, A miniature laser-ablation time-of-flight mass spectrometer for sub-ppm analysis of planetary surfaces, Geophys. Res. Abstr., Vol. 12, EGU2010-7051, 2010 EGU General Assembly 2010.
[53] A.M. Walser, G. Knopp, P. Beaud, P.P. Radi, M. Tulej, M. Meisinger, T. Gerber Investigation of the Coriolis perturbed ν1 band of H2CO with fs-CARS, ESF Summer School: Ultrafast Reaction Dynamics and Applications,1-4 June 2006 - Vilamoura, Portugal.
[52] A.M. Walser, G. Knopp, P. Beaud, P.P. Radi, M. Tulej, M. Meisinger, T. Gerber Fs-CARS investigations of Coriolis perturbations on the fundamental symmetric stretch ro-vibrational band of H2CO,1st European Chemistry Congress - 27-31 August 2006 - Budapest, Hungary.
[51] M. Meisinger, M. Tulej, P. P. Radi, A. M. Walser, G. Knopp, and T. Gerber and Dissociation dynamics of formaldehyde studied by four wave mixing, ECONOS 2007- 12-15 May 2007 - Saint Petersburg, Russia.
[50] A. M. Walser, M. Meisinger, P. P. Radi, M. Tulej, T. Gerber and G. Knopp Fs-time resolved all ultraviolet two colour resonant FWM spectroscopy on H2CO, Econos 2007, 12-15 May 2007 - Saint Petersburg, Russia.
[49] M. Tulej, Symposium on RF ion traps: technique and applications in reaction dynamics and spectroscopy, TU Chemnitz, Germany, June 8-10, 2006
[48] M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Beaud, T. Gerber, and P. P. Radi, Four wave mixing spectroscopy of molecules and radicals, Gordon Conference on Electronic Spectroscopy and Dynamics, Les Diablerets, Switzerland, Sept. 10-15, 2006
[47] A. Walser, P. Beaud, P.P. Radi, M. Tulej, T. Gerber, and G. Knopp, Fs-resolved Raman studies on H2CO, ECONOS, Smolenice, Slovak Republik, Apr. 9-11, 2006.
[46] M. Meisinger, M. Tulej, G. Knopp, A. M. Walser, T. Gerber, and P. P. Radi, The effect of the polarization configuration on the degenerate four wave mixing signal intensity under
free-jet conditions, ECONOS, Smolenice, Slovak Republik, Apr. 9-11, 2006.
[45] M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Beaud, T. Gerber, and P. P. Radi Spectroscopy and reaction dynamics using arious resonant four wave mixingtechniques applied on cold molecular beams, 21th International Symposium on Molecular Beams, Hersonissos, Crete, Greece, May 5-10, 2005.
[44] M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Beaud, T. Gerber, P. P. Radi, State-resolved (n, J, Ka, Kc) photo fragment excitation of formaldehyde near the S0 and T1 threshold: the effect of parent motion on selected rovibrational states of HCO, 28th Free Radicals Symposium, Leysin, Switzerland, September 4-9, 2005.
[33] M. Tulej, M. Meisinger, G. Knopp, A. Walser, P. Beaud, T. Gerber, and P.P. Radi, Photofragment excitation spectroscopy (PHOFEX) by DFWM and LIF: propensities for H2CO - > HCO+H near the S0 threshold, ECONOS, Oxford, UK, April 10-12, 2005.
[32] A. Walser, P. Beaud, P.P. Radi, M. Tulej, M. Meisinger, T. Gerber and G. Knopp, Rotational energy transfer by fs CARS spectroscopy, ECONOS, Oxford, UK, April 10-12, 2005.
[31] G. Knopp, A. M. Walser, P. Beaud, P.P. Radi, M. Tulej, T. Gerber, Collision induced energy transfer in fs coherent anti-Stokes Raman scattering of small molecules, FRISNO 8, Ein Bokek, Israel, February 20-25, 2005.
[30] M. Tulej, P. Beaud, G.Knopp, T. Gerber, P. Radi, Photodissociation dynamics of formaldehyde using four wave mixing and laser induced fluorescence, 6th International Conference on Dissociative Recombination: Theory, Experiments and Applications, 12-16 July 2004, Mosbach, Germany.
[29] M. Tulej, P. Beaud, G. Knopp, T. Gerber and P.P. Radi, Photo-fragment excitation spectroscopy (PHOFEX) by DFWM and LIF: propensities for H2CO -> HCO+H near the S0 threshold, ECONOS, April 10-12, 2004, Bamberg, Germany.
[28] T. Pino, M. Tulej, F. Guethe, M. V. Pachkov , and J. P. Maier, Dipole Bound states of Small Carbon Hydrides, Molecular Spectroscopy Conference, Ohio, USA; June 16-21, 2002.
[27] M. Tulej, B. Bougie, and T. Gerber, Ignition and soot formation processes XVIII International Symposium on Combustion Processes, Ustron, Poland, Sept. ’02.
[26] M. Tulej, B. Bougie, and T. Gerber, Diesel spray combustion: experiment and modeling, Symposium: Towards Clean Diesel Engine, TU Amsterdam, May 12-16, ’03, talk
[25] B. Bougie, M. Tulej, and T. Gerber, Diesel spray propagation in non-vaporizing and vaporizing conditions – experiment and modeling, European Research Community On Flow Turbulance and Combustion (ERCOFTAC) Zürich, Switzerland, May 13, 2002.
[24] P. Beaud, G. Knopp, P. Radi, M. Tulej, and T. Gerber, Rotational energy transfer and line mixing for N2-N2 collisions viewed in the time domain by fs-CARS, ECONOS, Villigen (Switzerland), March 18–19, 2002
[23] A. P. Kouzov, P.P. Radi, P. Beaud, G. Knopp, M. Tulej, and T. Gerber, Quantitative analysis of two-color resonant four-wave mixing spectra of the OH radical, ECONOS, Villigen (Switzerland); March 18–19, 2002.
[22] F. Güthe, M. Tulej, M. Pachkov, K. Tikhomirov, R. Xu, M. Jungen, and J. P. Maier, Feshbach states of the propadienylidene anion C3H2-, Frühjahrstagung, Deutsche Physikalische Gesellschaft, Potsdam (Germany); March 21, 2002.
[21] G. Knopp, P. Beaud, P. Radi, M. Tulej, and T. Gerber, Collision Induced Rotational Relaxation probed by fs-CARS Spectroscopy, Frühjahrstagung, Deutsche Physikalische
Gesellschaft, Osnabrück (Germany), March 4-8, 2002.
[20] G. Knopp, P. Beaud, P. Radi, M. Tulej, and T. Gerber, Ultrafast Dissociation Channel of the Ethyl Radical, Frühjahrstagung, Deutsche Physikalische Gesellschaft, Osnabrück (Germany), March 4-8, 2002.
[19] G. Knopp, P. Beaud, P. Radi, M. Tulej, and T. Gerber, Femtosecond photoionization of the ethyl radical C2H5, 5th Femtochemistry Conference, Toledo (Spain); Sept. 2–6, 2001.
[18] S. Kunte, M. Tulej, P. Radi, T. Gerber, and K. Boulochous, Optical measuring techniques towards the characterization of soot formation and oxidation within a laminar diffusion flame, European Research Community On Flow Turbulance and Combustion (ERCOFTAC), Zürich (Switzerland); June 11, 2001.
[17] M. Tulej, T. Pino, M. V. Pachkov and J.P. Maier, Electronic spectroscopy of C3H-, 26th Int. Symp. Free Radicals, Assisi (Italy), Sept. 2-7, 2001.
[16] S. Kunte, M. Tulej, P. Radi, T. Gerber, K. Boulouchos, Flame experiments on the soot reduction potential of acetals in diffusion flames, IEA Conference, Task Leader Meeting, Pasadena, USA; Aug. 12-16, 2001.
[15] M. Tulej, Diesel spray propagation in non-vaporizing and reactive conditions – experiment and modeling, European Research Community, On Flow Turbulance and Combustion (ERCOFTAC) Zürich, Switzerland, May 13, 2002.
[14] M. Tulej, Optical measuring techniques towards the characterization of soot formation and oxidation within a laminar diffusion flame, European Research Community On Flow Turbulance and Combustion (ERCOFTAC), Zürich, Switzerland, June 11, 2001.
[13] F. Güthe, M. Tulej, M. V. Pachkov, M. Schneiter, D. A. Kirkwood, G. Fisher, and J. P. Maier Homologues Series of Hydrocarbon Chains Anions, SASP, Italy; Feb. 12-16, 2000.
[12] M. Tulej, J. Fulara, M. Jungen, A. Sobolewski and J. P. Maier, Electronic transitions of C3 to the states above lowest photodetachment threshold, Photoionization Phenomena, EURESCO, Spain; Nov.–Dec.28-2, 1999.
[11] M. V. Pachkov, M. Tulej, F. Güthe, M. Schneiter, D. Kirkwood, Long Negatively Charged Hydrocarbon Anions, Dijon, France; Sept. 11-14, 1999.
[10] M. Tulej, M. Pachkov, D. Kirkwood, O. Dopfer, and J. P. Maier, Negative Carbon Anions and Relevance to Astrophysics, Faraday Discussion No.109, Nottingham, UK; Apr. 4-9, 1998.
[9] D. Kirkwood, M. Tulej, M.V. Pachkov and J. P. Maier, The C7 Spectrum, Relevance to Astrophysics, High Resolution Spectroscopy, Prague, Chech Republik; Sept. 15-18, 1998.
[8] M. Tulej, Negatively Charged Carbon Chains and their possible Detection in Interstellar Media, International Workshop Organized by Polish Students Association, Susiec, Poland, Apr. 28-03, 1998.
[7] M. Tulej, Negatively Charged Carbon Chains and their possible Detection in Interstellar Media, Polish Students Association Meeting, Susiec, Poland, Apr. 28, 1998.
[6] M. Tulej, P. Rzadek, and J. Najbar, Two photon Laser Induced Excitation Spectroscopy of Jet Cooled Di-Aza-Bicyclo-Octane (DABCO), Research Meeting of Polish Chemical Society, Krakow, Jagiellonian University, Poland; Sept. 4-7, 1995.
[5] M. Tulej, P. Rzadek, and J.Najbar, Supersonic Jet Laser Spectroscopy on Cold Molecular Beams, Symposium on Low Temperatures in Physics and Chemistry, Krakow, Jagiellonian University, Poland; Jan. 1-8, 1994. Supersonic Jet Laser Spectroscopy of Aromatic Compounds, Symposium on Low Temperatures in Physics and Chemistry, Krakow, Jagiellonian University, Poland Aug. 7, 1994.
[4] M. Mac, et al., Charged Transfer Complexes: Experiment and Modeling Meeting of Polish Chemical Society, Krakow, Poland, Sept. 2-6, 1993.
[3] M. Tulej, Supersonic Jet Laser Spectroscopy of Aromatic Compounds, Symposium on Low Temperatures in Physics and Chemistry, Krakow, Jagiellonian University, Poland Aug. 7, ’94
[2] M. Mac, et al., Charged Transfer Complexes: Experiment and Modeling Meeting of Polish Chemical Society, Krakow, Poland, Sept. 2-6, 1993.
[1] M. Mac, M. Tulej, and J. Najbar, Investigations of Fluorescence Quenching of Anthracene by Iodine Ions, Research Meeting of Polish Chemical Society, Krakow, Jagiellonian University, Poland; Sept. 4-7, 1991.

 

Recent invited talks (over 50 talks on various scientific conferences, symposia and meetings with 21 invited talks)

[7] Searching for microbial life on planetary surface, Astronomy and Space Science, May 2-3, 2019, London, UK. [6] In situ exploration of Jupiters satallites on JUICE, ESA mission to Jupiter, Astronomy and Space Science, May 2-3, 2019, London, UK. [5] Searching for extinct or present microbial life on planetary surface, 4th International Conference on Satellite & Space Science June 18-20, 2018, Rome, Italy. [4] Chemical measurements of NIM on JUICE, ESA mission to Jupter satellites, Satellite 2018, November 12-13, 2018 Rome, Italy (Keynote).
Publication list of PD Dr. M. Tulej
16
[3] Chemical composition of the micro-sized solids by femtosecond laser ablation/ionization mass spectrometry: searching for bio-relevant materials on the Earth and beyond, Laser Optics and Photonics, 2th Summit and Expo June 12-14, 2018 Rome, Italy. [2] Quantitative Elemental and Isotope Analysis by Fs-Laser Ablation/Ionisation Time-of-Flight Mass Spectrometry with Double-Pulse Ion Source, International Conference on Spectroscopy and Chromatography, September 17-19, 2018, Paris, France (Keynote). [1] Experimental and modelling studies of interaction of e- beam (10-345 MeV) with materials designed for radiation shielding for the MCP detector on JUICE mission to Jupiter, Collaborative Conference on Beam Physics (CCBP), June 18-22, 2017, Vienna, Austria.