G. Wrigge

965 total citations
20 papers, 746 citations indexed

About

G. Wrigge is a scholar working on Atomic and Molecular Physics, and Optics, Biomedical Engineering and Electrical and Electronic Engineering. According to data from OpenAlex, G. Wrigge has authored 20 papers receiving a total of 746 indexed citations (citations by other indexed papers that have themselves been cited), including 16 papers in Atomic and Molecular Physics, and Optics, 5 papers in Biomedical Engineering and 4 papers in Electrical and Electronic Engineering. Recurrent topics in G. Wrigge's work include Quantum optics and atomic interactions (6 papers), Advanced Chemical Physics Studies (6 papers) and Spectroscopy and Quantum Chemical Studies (4 papers). G. Wrigge is often cited by papers focused on Quantum optics and atomic interactions (6 papers), Advanced Chemical Physics Studies (6 papers) and Spectroscopy and Quantum Chemical Studies (4 papers). G. Wrigge collaborates with scholars based in Switzerland, Germany and Singapore. G. Wrigge's co-authors include Ilja Gerhardt, G. Zumofen, Bernd von Issendorff, M. Hoffmann, V. Sandoghdar, Jaesuk Hwang, V. Sandoghdar, Hellmut Haberland, J. Hwang and Mario Agio and has published in prestigious journals such as Physical Review Letters, The Journal of Chemical Physics and Physical review. B, Condensed matter.

In The Last Decade

G. Wrigge

20 papers receiving 723 citations

Peers

G. Wrigge
Mauro Croci Switzerland
Victor N. Zadkov Russia
M. V. Rama Krishna United States
A. Migus France
Stefano Pittalis Italy
Christian Hettich Germany
H. Ohoyama Japan
Arza Ron Israel
Fabienne Goldfarb France
John T. Bahns United States
Mauro Croci Switzerland
G. Wrigge
Citations per year, relative to G. Wrigge G. Wrigge (= 1×) peers Mauro Croci

Countries citing papers authored by G. Wrigge

Since Specialization
Citations

This map shows the geographic impact of G. Wrigge's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by G. Wrigge with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites G. Wrigge more than expected).

Fields of papers citing papers by G. Wrigge

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by G. Wrigge. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by G. Wrigge. The network helps show where G. Wrigge may publish in the future.

Co-authorship network of co-authors of G. Wrigge

This figure shows the co-authorship network connecting the top 25 collaborators of G. Wrigge. A scholar is included among the top collaborators of G. Wrigge based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with G. Wrigge. G. Wrigge is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Gerhardt, Ilja, G. Wrigge, J. Hwang, G. Zumofen, & V. Sandoghdar. (2010). Coherent nonlinear single-molecule microscopy. Physical Review A. 82(6). 23 indexed citations
2.
Gerhardt, Ilja, G. Wrigge, & V. Sandoghdar. (2009). Control and imaging of single-molecule spectral dynamics using a nano-electrode. Molecular Physics. 107(18). 1975–1979. 7 indexed citations
3.
Gerhardt, Ilja, G. Wrigge, G. Zumofen, et al.. (2009). Coherent state preparation and observation of Rabi oscillations in a single molecule. Physical Review A. 79(1). 47 indexed citations
4.
Hwang, J., G. Wrigge, Ilja Gerhardt, G. Zumofen, & V. Sandoghdar. (2009). Exploring the Limits of Single Emitter Detection in Fluorescence and Extinction. 4. JWA98–JWA98. 3 indexed citations
5.
Gerhardt, Ilja, G. Wrigge, Jaesuk Hwang, et al.. (2009). Coherent State Preparation and Observation of Rabi Oscillations in a Single Molecule. IThH1–IThH1. 4 indexed citations
6.
Wrigge, G., et al.. (2008). Exploring the limits of single emitter detection in fluorescence and extinction. Optics Express. 16(22). 17358–17358. 14 indexed citations
7.
Gerhardt, Ilja, G. Wrigge, Pavel Bushev, et al.. (2007). Strong Extinction of a Laser Beam by a Single Molecule. Physical Review Letters. 98(3). 33601–33601. 89 indexed citations
8.
Gerhardt, Ilja, G. Wrigge, Mario Agio, et al.. (2007). Scanning near-field optical coherent spectroscopy of single molecules at 14K. Optics Letters. 32(11). 1420–1420. 16 indexed citations
9.
Wrigge, G., Ilja Gerhardt, Jaesuk Hwang, G. Zumofen, & V. Sandoghdar. (2007). Efficient coupling of photons to a single molecule and the observation of its resonance fluorescence. Nature Physics. 4(1). 60–66. 240 indexed citations
10.
Wrigge, G., Ilja Gerhardt, J. Hwang, G. Zumofen, & Vahid Sandoghdar. (2007). Wrigge, G., Gerhardt, I., Hwang, J., Zumofen, G. & Sandoghdar, V. Efficient coupling of photons to a single molecule and the observation of its resonance fluorescence. Nature Phys. 4, 60-66. 5 indexed citations
11.
Maier, Martin, et al.. (2006). Observation of Electron Gas Cooling in Free Sodium Clusters. Physical Review Letters. 96(11). 117405–117405. 14 indexed citations
12.
Maier, Martin, et al.. (2006). Bulk-like electron–phonon coupling in small free sodium clusters. International Journal of Mass Spectrometry. 252(2). 157–165. 9 indexed citations
13.
Sandoghdar, Vahid, Enrico Klotzsch, Alois Renn, et al.. (2006). Optical Detection of Very Small Nonfluorescent Nanoparticles. CHIMIA International Journal for Chemistry. 60(11). 761–761. 6 indexed citations
14.
Kostko, Oleg, G. Wrigge, Ori Cheshnovsky, & Bernd von Issendorff. (2005). Transition from a Bloch-Wilson to a free-electron density of states in Znn− clusters. The Journal of Chemical Physics. 123(22). 221102–221102. 13 indexed citations
15.
Wrigge, G., M. Hoffmann, Bernd von Issendorff, & Hellmut Haberland. (2003). Ultraviolet photoelectron spectroscopy of to $$ {\rm{Nb}}_4^ - $$ to $$ {\rm{Nb}}_{200}^ - $$. The European Physical Journal D. 24(1-3). 23–26. 20 indexed citations
16.
Wrigge, G., M. Hoffmann, Bernd von Issendorff, & Hellmut Haberland. (2003). Ultraviolet photoelectronspectroscopy of to % MathType!MTEF!2!1!+-% feaafaart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXatLxBI9gBaerbd9wDYLwzYbItLDharqqtubsr% 4rNCHbGeaGqiVu0Je9sqqrpepC0xbbL8F4rqqrFfpeea0xe9Lq-Jc9% vqaqpepm0xbba9pwe9Q8fs0-yqaqpepae9pg0FirpepeKkFr0xfr-x% fr-xb9adbaqaaeGaciGaaiaabeqaamaabaabaaGcbaGaaeOtaiaabk% gadaqhaaWcbaGaaGinaaqaaiabgkHiTaaaaaa!3979!$${\rm{Nb}}_4^ - $$ to % MathType!MTEF!2!1!+-% feaafaart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% …. 24(1). 23–26. 17 indexed citations
17.
Moseler, Michael, Bernd Huber, Hannu Häkkinen, et al.. (2003). Thermal effects in the photoelectron spectra ofNaNclusters(N=419). Physical review. B, Condensed matter. 68(16). 58 indexed citations
18.
Hoffmann, M., G. Wrigge, & Bernd von Issendorff. (2002). Photoelectron spectroscopy ofAl32000:Observation of a “Coulomb staircase” in a free cluster. Physical review. B, Condensed matter. 66(4). 31 indexed citations
19.
Wrigge, G., M. Hoffmann, & Bernd von Issendorff. (2002). Photoelectron spectroscopy of sodium clusters: Direct observation of the electronic shell structure. Physical Review A. 65(6). 76 indexed citations
20.
Hoffmann, M., G. Wrigge, Bernd von Issendorff, et al.. (2001). Ultraviolet photoelectron spectroscopy of Si 4- to Si 1000-. The European Physical Journal D. 16(1). 9–11. 54 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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