Publications

Here, my publications are grouped according to their subject, with the subjects being ordered “historically” (tracing my path through science):

coherent optical processes in semiconductors
nitride semiconductors: strain, phonons, superlattices
pressure dependence of vibrational frequencies
– semiconductor interfaces and quantum wells
Peltier effect from lock-in thermography
ab initio Raman spectra
– fundamental theory for thermal waves
– silicon solar cells (corresponding conference contributions are given separately)
magnetic particle mapping

Additionally, there is a separate section for Comments I wrote (also the respective responses are given) and one contribution to German linguistics, more precisely, to the debate about the German orthography.

Alternatively, you may have a look at my listings at Web of Science, at ORCiD, or (with a larger coverage of my works) at ResearchGate.

My Ph.D. thesis “Structure and Lattice Dynamics of GaN and AlN: Ab-Initio Investigations of Strained Polytypes and Superlattices” can be found at the Digitale Bibliothek Thüringen.

Finally, it is my pleasure to bring to your attention several papers (and four books) where I have the honor to be mentioned in the acknowledgment.


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Coherent Optical Processes (1994–1996)


1.  Higher order photon echo in four-wave-mixing experiments
R. Heitz, B. Lummer, J.-M. Wagner, A. Hoffmann, I. Broser, and R. Zimmermann,
Proc. 22nd Int. Conf. Phys. Semicond. (ICPS), Vancouver (1994), ed. by J. Lockwood, World Scientific Publishing, p. 365.


2.  Dephasing of acceptor bound excitons in II-VI semiconductors
B. Lummer, R. Heitz, V. Kutzer, J.-M. Wagner, A. Hoffmann, and I. Broser, Phys. Status Solidi B 188, 493 (1995).


3.  Pulse-propagation-induced higher orders of diffraction in transient four-wave mixing with semiconductors,
B. Lummer, J.-M. Wagner, R. Heitz, A. Hoffmann, I. Broser, and R. Zimmermann, Phys. Rev. B 54, 16727 (1996)
 
 

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Group-III Nitrides (1997–2003)


1.  Raman spectra of isotopic GaN
J. M. Zhang, T. Ruf, M. Cardona, O. Ambacher, M. Stutzmann, J.-M. Wagner, and F. Bechstedt, Phys. Rev. B 56, 14399 (1997).


2.  Ab initio study of structural, dielectric, and dynamical properties of GaN
K. Karch, J.-M. Wagner, and F. Bechstedt, Phys. Rev. B 57, 7043 (1998).


3.  Pressure-dependent dynamical and dielectric properties of GaN and AlN
K. Karch, J.-M. Wagner, H. Siegle, C. Thomsen, and F. Bechstedt, Mater. Sci. Forum 264-268, 303 (1998).
(Proc. 7th Int. Conf. SiC, III-Nitrides & Related Materials, Stockholm 1997, ed. by G. Pensl, H. Morkoç, B. Monemar, and E. Janzén; Trans Tech Publ. Ltd., Zürich 1998)


4.  Properties of strained and unstrained III-nitrides
J.-M. Wagner, G. Portisch, K. Karch, and F. Bechstedt, Mater. Sci. Eng. B 59, 248 (1999).


5.  Strain influence on III-nitrides: Ab initio studies of structural, lattice-dynamical, and dielectric properties
J.-M. Wagner and F. Bechstedt, Phys. Status Solidi B 216, 793 (1999).


6.  Phonon deformation potentials of α-GaN and -AlN: An ab initio calculation
J.-M. Wagner and F. Bechstedt, Appl. Phys. Lett. 77, 346 (2000).


7.  Pressure dependence of the dielectric and lattice-dynamical properties of GaN and AlN
J.-M. Wagner and F. Bechstedt, Phys. Rev. B 62, 4526 (2000).


8.  Strain effects on structural, dielectric, and lattice-dynamical properties of short-period GaN/AlN superlattices
J.-M. Wagner, J. Gleize, and F. Bechstedt, IPAP Conf. Series 1, 669 (2000).


9.  Peculiarities of phonons in strained short-period GaN/AlN superlattices: A first principles study
J.-M. Wagner and F. Bechstedt, Springer Proceedings in Physics 87, 883 (2001).
(Proc. 25th Int. Conf. Phys. Semicond., Osaka 2000, ed. by N. Miura and T. Ando)


10.  Effect of pressure on optical phonon modes and transverse effective charges in GaN and AlN
A. R. Goñi, H. Siegle, K. Syassen, C. Thomsen, and J.-M. Wagner, Phys. Rev. B 64, 035205 (2001).


11.  Properties of strained wurtzite GaN and AlN: Ab initio studies
J.-M. Wagner and F. Bechstedt, Phys. Rev. B 66, 115202 (2002).


12.  Electronic and Phonon Deformation Potentials of GaN and AlN: Ab initio Calculations versus Experiment
J.-M. Wagner and F. Bechstedt, Phys. Status Solidi B 234, 965 (2002).


13.  First-principles study of phonon-mode softening under pressure: the case of GaN and AlN
J.-M. Wagner and F. Bechstedt, Phys. Status Solidi B 235, 464 (2003).


14.  Electronic and vibrational properties of group-III nitrides: Ab initio studies
F. Bechstedt, J. Furthmüller, and J.-M. Wagner, Phys. Status Solidi C 0, 1732 (2003).


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Pressure Dependence of Vibrational Frequencies (2000)


1.  On the inadequacy of linear pressure dependence of vibrational frequency
J.-M. Wagner, Solid State Commun. 116, 355 (2000).


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Interfaces, Quantum Wells etc. (2004, 2007, 2008)


1.  Ab initio study of structural and electronic properties of planar defects in Si and SiC
C. Raffy, J. Furthmüller, J.-M. Wagner, and F. Bechstedt, Phys. Rev. B 70, 195344 (2004).


2.  Quasiparticle effect on electron confinement in Si/SiO2 quantum-well structures
K. Seino, J.-M. Wagner, and F. Bechstedt, Appl. Phys. Lett. 90, 253109 (2007).
(This paper was selected for the former Virtual Journal of Nanoscale Science & Technology 16, Issue 1.)


3.  Electronic band gap of Si/SiO2 quantum wells: Comparison of ab initio calculations and photoluminescence measurements
J.-M. Wagner, K. Seino, F. Bechstedt, A. Dymiati, J. Mayer, R. Rölver, M. Först, B. Berghoff, B. Spangenberg, and H. Kurz, J. Vac. Sci. Technol. A 25, 1500 (2007).
(This paper was selected for the former Virtual Journal of Nanoscale Science & Technology 16, Issue 13.)


4.  Ab initio calculation of optical absorption and reflectivity of Si(001)/SiO2 superlattices with varying interfaces
K. Seino, J.-M. Wagner, and F. Bechstedt, Appl. Surf. Sci. 255, 787 (2008).


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Peltier Effect (2009)


1.  Measurement of the Peltier coefficient of semiconductors by lock-in thermography
H. Straube, J.-M. Wagner, and O. Breitenstein, Appl. Phys. Lett. 95, 052107 (2009).


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Ab intio Raman Spectra (2011)


1.  Raman spectra of barium halides in orthorhombic and hexagonal symmetry: An ab initio study
C. Bohley, J.-M. Wagner, C. Pfau, P.-T. Miclea, and S. Schweizer, Phys. Rev. B 83, 024107 (2011).
 
 

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Thermal Waves (2011)


1.  Thermal wave propagation in thin films on substrate: the time-harmonic thermal transfer function
H. Straube, O. Breitenstein, and J.-M. Wagner, Phys. Status Solidi B 248, 2128 (2011).


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Solar Cells (2008–2022; ongoing)


1.  Imaging Physical Parameters of Pre-Breakdown Sites by Lock-in Thermography Techniques
O. Breitenstein, J. Bauer, J.-M. Wagner, and A. Lotnyk, Prog. Photovolt: Res. Appl. 16, 679 (2008).


2.  Hot spots in multicrystalline silicon solar cells: avalanche breakdown due to etch pits
J. Bauer, J.-M. Wagner, A. Lotnyk, H. Blumtritt, B. Lim, J. Schmidt, and O. Breitenstein, Phys. Status Solidi RRL 3, 40 (2009).


3.  Defect induced non-ideal dark I–V characteristics of solar cells
O. Breitenstein, J. Bauer, A. Lotnyk, and J.-M. Wagner, Superlatt. Microstruct. 45, 182 (2009).
[Proc. 9th Int. Workshop on Beam Injection Assessment of Microstructures in Semiconductors (BIAMS 2008), Toledo 2008]


4.  Efficiency limits of Si/SiO2 quantum well solar cells from first-principles calculations
T. Kirchartz, K. Seino, J.-M. Wagner, U. Rau, and F. Bechstedt, J. Appl. Phys. 105, 104511 (2009).


5.  (invited) Lock-in Thermography: A Versatile Tool for Failure Analysis of Solar Cells
J. Bauer, O. Breitenstein, and J.-M. Wagner, Electronic Device Failure Analysis 11 (2009), No. 3, p. 6.


6.  Luminescence emission from forward- and reverse-biased multicrystalline silicon solar cells
K. Bothe, K. Ramspeck, D. Hinken, C. Schinke, J. Schmidt, S. Herlufsen, R. Brendel, J. Bauer, J.-M. Wagner, N. Zakharov, and O. Breitenstein, J. Appl. Phys. 106, 104510 (2009).


7.  Quantitative evaluation of electroluminescence images of solar cells
O. Breitenstein, A. Khanna, Y. Augarten, J. Bauer, J.-M. Wagner, and K. Iwig, Phys. Status Solidi RRL 4, 7 (2010).


8.  Defect-Induced Breakdown in Multicrystalline Silicon Solar Cells
O. Breitenstein, J. Bauer, J.-M. Wagner, N. Zhakharov, H. Blumtritt, A. Lotnyk, M. Kasemann, W. Kwapil, and W. Warta, IEEE Trans. Electron Devices 57, 2227 (2010).


9.  Understanding junction breakdown in multicrystalline solar cells
O. Breitenstein, J. Bauer, K. Bothe, W. Kwapil, D. Lausch, U. Rau, J. Schmidt, M. Schneemann, M. C. Schubert, J.-M. Wagner, and W. Warta, J. Appl. Phys. 109, 071101 (2011).


10.  Quantitative evaluation of loss mechanisms in thin film solar cells using lock-in thermography
H. Straube, J.-M. Wagner, J. Schneider, and O. Breitenstein, J. Appl. Phys. 110, 084513 (2011).


11.  Qualitative and quantitative evaluation of thin-film solar cells using solar cell local characterization
J.-M. Wagner, J. Carstensen, A. Schütt, and H. Föll, J. Appl. Phys. 113, 064503 (2013).


12.  Series resistance contribution of majority carriers in CELLO impedance analysis: Influence of wafer thickness variation
J.-M. Wagner, A. Schütt, J. Carstensen, and H. Föll, Solar Energy Materials and Solar Cells 146, 129 (2016).


13.  (Editor's Choice) Fundamental Aspects Concerning the Validity of the Standard Equivalent Circuit for Large-Area Silicon Solar Cells
J.-M. Wagner, J. Carstensen, and R. Adelung, Physica Status Solidi A 217, 1900612 (2020).
(This paper also appeared in the Hot Topic: Solar Cells overview of Advanced Energy Materials.)


14.  A numerical optimization study of CdS and Mg0.125Zn0.875O buffer layers in CIGS-based solar cells using wxAMPS-1D package
M. Hadjab, J.-M. Wagner, F. Bouzid, S. Boudour, A. Hadj Larbi, H. Bennacer, M. I. Ziane, M. A. Saeed, H. Abid, and S. Berrah, International Journal of Modelling and Simulation 42, 179 (2022).


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Solar Cells: Conference Contributions (2008–2024; ongoing)


1.  Pre-breakdown mechanisms in multicrystalline silicon solar cells
J.-M. Wagner, J. Bauer, A. Lotnyk, and O. Breitenstein,
Proc. 23rd European Photovoltaic Solar Energy Conference, Valencia (2008), Contribution 2DO.2.3, pp. 1164–1168.


2.  Progress in silicon solar cell characterization with infrared imaging methods
M. Kasemann, W. Kwapil, B. Walter, J. Giesecke, B. Michl, M. The, J.-M. Wagner, J. Bauer, A. Schütt, J. Carstensen, S. Kluska, F. Granek, H. Kampwerth, P. Gundel, M. C. Schubert, R. A. Bardos, H. Föll, H. Nagel, P. Würfel, T. Trupke, O. Breitenstein, M. Hermle, W. Warta, and S. W. Glunz,
Proc. 23rd European Photovoltaic Solar Energy Conference, Valencia (2008), Contribution 2DP.2.3, pp. 965–973.


3.  Classification of pre-breakdown phenomena in multicrystalline silicon solar cells
J.-M. Wagner, J. Bauer, and O. Breitenstein,
Proc. 24th European Photovoltaic Solar Energy Conference, Hamburg (2009), Contribution 2AO.1.5, pp. 925–929.


4.  Imaging and analysis of pre-breakdown sites in multicrystalline silicon solar cells
K. Bothe, D. Hinken, K. Ramspeck, S. Herlufsen, J. Schmidt, R. Brendel, J. Bauer, J.-M. Wagner, N. Zakharov, and O. Breitenstein,
Proc. 24th European Photovoltaic Solar Energy Conference, Hamburg (2009), Contribution 2AO.1.4, pp. 918–924.


5.  Physical mechanisms of breakdown in multicrystalline silicon solar cells
W. Kwapil, M. Kasemann, P. Gundel, M. C. Schubert, W. Warta, O. Breitenstein, J. Bauer, A. Lotnyk, J.-M. Wagner, P. C. P. Bronsveld, and G. Coletti,
Proc. 24th European Photovoltaic Solar Energy Conference, Hamburg (2009), Contribution 2DP.2.5, pp. 896–900.


6.  Lock-in thermography on crystalline silicon on glass (CSG) thin film modules: influence of Peltier contributions
H. Straube, O. Breitenstein, and J.-M. Wagner,
Proc. 24th European Photovoltaic Solar Energy Conference, Hamburg (2009), Contribution 3AV.1.7, pp. 2500–2505.


7.  3D subsurface imaging of precipitates inside block-cast silicon
S. Köstner, H. Cypionka, H. van der Voort, J. Bauer, J.-M. Wagner, and O. Breitenstein,
Proc. 24th European Photovoltaic Solar Energy Conference, Hamburg (2009), Contribution 2DV.1.83, pp. 2270–2274.


8.  Physical mechanisms of breakdown in multicrystalline silicon solar cells
O. Breitenstein, J. Bauer, J.-M. Wagner, H. Blumtritt, A. Lotnyk, M. Kasemann, W. Kwapil, and W. Warta,
Proc. 34th IEEE Photovoltaic Specialists Conference, Philadelphia (2009), pp. 181–186.


9.  Failure analysis of breakdown sites in silicon solar cells
O. Breitenstein, J. Bauer, J.-M. Wagner, H. Blumtritt, N. D. Zakharov, and A. Lotnyk,
Proc. 35th International Symposium for Testing and Failure Analysis, San Jose, USA (2009), pp. 162–165.


10.  Quantitative imaging of physical parameters of breakdown sites and avalanche multiplication in solar cells by lock-in thermography
O. Breitenstein, J. Bauer, and J.-M. Wagner,
Proc. 10th International Conference on Quantitative InfraRed Thermography (QIRT10), Quebec (2010), pp. 213–217.


11.  Interpretation of lock-in thermography on thin film solar cells considering dissipative and Peltier contributions
H. Straube, J.-M. Wagner, and O. Breitenstein,
Proc. 10th International Conference on Quantitative InfraRed Thermography (QIRT10), Quebec (2010), pp. 221–227.


12.  Understanding junction breakdown in multicrystalline solar cells
O. Breitenstein, J. Bauer, K. Bothe, W. Kwapil, D. Lausch, U. Rau, J. Schmidt, M. Schneemann, M. C. Schubert, J.-M. Wagner, and W. Warta,
Proc. 20th Workshop on Crystalline Silicon Solar Cells & Modules, NREL, Breckenridge, USA (2010) (PDF file).


13.  Series resistance analysis with the shaded luminescence technique
J.-M. Wagner, J. Carstensen, A. Berhane, A. Schütt, and H. Föll,
Proc. 26th European Photovoltaic Solar Energy Conference, Hamburg (2011), Contribution 2BV.2.51, pp. 1569–1575.


14.  Spectrally resolved local CELLO characterization of tandem solar cells using linear and 2nd harmonic response analysis
A. Schütt, J. Carstensen, J.-M. Wagner, H. Föll, M. Nguyen, and S. Klein,
Proc. 27th European Photovoltaic Solar Energy Conference, Frankfurt (2012), Contribution 3DV.1.61, pp. 2598–2603.


15.  Comparison of local solar cell efficiency analysis performed by DLIT and CELLO
O. Breitenstein, J. Carstensen, A. Schütt, and J.-M. Wagner,
Proc. 28th European Photovoltaic Solar Energy Conference, Paris (2013), Contribution 2CV.3.15, pp. 1538–1544.


16.  Influence of surface and process induced defects on potential-induced degradation and regeneration
A. Schütt, J. Carstensen, J.-M. Wagner, and H. Föll,
Proc. 28th European Photovoltaic Solar Energy Conference, Paris (2013), Contribution 2BO.3.2, pp. 831–835.


17.  Local characterization of co-firing-induced inhomogeneities of conventional mc-Si solar cells
A. Schütt, J. Carstensen, J.-M. Wagner, and H. Föll,
Proc. 28th European Photovoltaic Solar Energy Conference, Paris (2013), Contribution 2CV.3.13, pp. 1533–1537.


18.  Injection-level dependent series resistance: Comparison of CELLO and photoluminescence-based measurements
J.-M. Wagner, M. Hoppe, A. Schütt, J. Carstensen, and H. Föll,
Proc. 3rd International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2013), Hamelin, Energy Procedia 38, 199 (2013).


19.  Ohmic loss analysis for lateral balancing currents by CELLO and photoluminescence measurements
J. Carstensen, J.-M. Wagner, A. Schütt, A. Krudopp, and H. Föll,
Proc. 29th European Photovoltaic Solar Energy Conference, Amsterdam (2014), Contribution 2BO.2.6, pp. 433–440.


20.  Relation between local and global I–U characteristics: Restrictions for and by series resistance averaging
J. Carstensen, J.-M. Wagner, A. Schütt, and H. Föll,
Proc. 29th European Photovoltaic Solar Energy Conference, Amsterdam (2014), Contribution 2BV.8.21, pp. 1166–1170.


21.  Solving the code of series resistance on large area solar cells: average and local power losses of external and lateral balancing currents
J. Carstensen, J.-M. Wagner, A. Schütt, and R. Adelung,
Proc. 31st European Photovoltaic Solar Energy Conference, Hamburg (2015), Contribution 2BV.8.22, pp. 838–844.


22.  Linear-response description of the series resistance of large-area silicon solar cells: Resolving the difference between dark and illuminated behavior
J.-M. Wagner, A. Schütt, J. Carstensen, and R. Adelung,
Proc. 6th International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2016), Chambéry, Energy Procedia 92, 255 (2016).


23.  Distributed series resistance in a one-dimensional two-diode model revisited
J.-M. Wagner, S. Rißland, A. Schütt, J. Carstensen, and R. Adelung,
Proc. 7th International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2017), Freiburg, Energy Procedia 124, 197 (2017).


24.  A critical review and discussion of different methods to determine the series resistance of solar cells: Rs,dark vs. Rs,light?
J.-M. Wagner, K. Upadhyayula, J. Carstensen, and R. Adelung,
Proc. 8th International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2018), Lausanne, AIP Conference Proceedings 1999, 020022 (2018).


25.  Averaging the unaverageable: Defining a meaningful local series resistance for large-area silicon solar cells
J.-M. Wagner, K. Upadhyayula, J. Carstensen, and R. Adelung,
Proc. 9th International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2019), Leuven, AIP Conference Proceedings 2147, 020019 (2019).


26.  Injection dependence of the local series resistance: Extending the illumination intensity variation method
J.-M. Wagner, J. Carstensen, and R. Adelung,
Proc. 11th International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2021), Hamelin/online, AIP Conference Proceedings 2487, 030013 (2022).


27.  On the general current dependence of the distributed series resistance of solar cells: The influence of the base resistivity
J.-M. Wagner, J. Carstensen, and R. Adelung,
Proc. 13th International Conference on Crystalline Silicon Photovoltaics (SiliconPV 2023), Delft/online, SiliconPV Conf. Proc. 1 (2024).


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Magnetic Particle Mapping (2019)


1.  Magnetic particle mapping using magnetoelectric sensors as an imaging modality
R.-M. Friedrich, S. Zabel, A. Galka, N. Lukat, J.-M. Wagner, Ch. Kirchhof, E. Quandt, J. McCord, Ch. Selhuber-Unkel, M. Siniatchkin, and F. Faupel, Scientific Reports 9, 2086 (2019).


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Comments


1.  Comment on “First-principles study of high-pressure phonon dispersions of wurtzite, zinc blende, and rocksalt AlN” [J. Appl. Phys. 103, 013506 (2008)]
J.-M. Wagner, J. Appl. Phys. 104, 076106 (2008).

Response to “Comment on ‘First-principles study of high-pressure phonon dispersions of wurtzite, zinc-blende, and rocksalt AlN’ ” [J. Appl. Phys. 103, 013506 (2008)]
S. Saib, N. Bouarissa, P. Rodríguez-Hernández, and A. Muñoz, J. Appl. Phys. 104, 076107 (2008).


2.  Comment on “Origin of breakdown mechanism in multicrystalline silicon solar cells” [Appl. Phys. Lett. 101, 093903 (2012)]
J.-M. Wagner, J. Bauer, and O. Breitenstein, Appl. Phys. Lett. 102, 246101 (2013).

Response to “Comment on ‘Origin of breakdown mechanism in multicrystalline silicon solar cells’ ” [Appl. Phys. Lett. 102, 246101 (2013)]
B. Y. Zhang, C. Yang, W. F. Liu, and A. M. Liu, Appl. Phys. Lett. 102, 246102 (2013).
 
 

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Orthography


1.  Orthographie: Bildungsinhalt vs. Chancengleichheit? Rechtschreibreform, Wissensgesellschaft und christliches Menschenbild
J.-M. Wagner, in S. Stirnemann (ed.): “Im Wundergarten der Sprache. Beiträge gegen die Rechtschreibreform” (Festschrift für Reiner Kunze), Edition Isele, Eggingen 2004.


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Finally, there are several papers (among them one from linguistics) and four books where I have the honor to be mentioned in the acknowledgment:


•  Degenerate four-wave mixing at bound excitons in II-VI semiconductors
I. Broser, B. Lummer, R. Heitz, and A. Hoffmann, J. Cryst. Growth 138, 809 (1994).


•  Dynamic theory of excitonic hyper-Raman gain
K. Hannewald, S. Glutsch, and F. Bechstedt, Phys. Rev. B 58, 15336 (1998).


•  First-principles calculations of gap bowing in InxGa1-xN and InxAl1-xN alloys: Relation to structural and thermodynamic properties
M. Ferhat and F. Bechstedt, Phys. Rev. B 65, 075213 (2002).


•  Optical absorption of the Fano model: General case of many resonances and many continua
S. Glutsch, Phys. Rev. B 66, 075310 (2002).


•  Phonon deformation potentials of wurtzite AlN
J. Gleize, M. A. Renucci, J. Frandon, E. Bellet-Amalric, and B. Daudin, J. Appl. Phys. 93, 2065 (2003).


•  Structural relaxation in Si and Ge nanocrystallites: Influence on the electronic and optical properties
H.-Ch. Weissker, J. Furthmüller, and F. Bechstedt, Phys. Rev. B 67, 245304 (2003).


•  Nonresonant and resonant Zener tunneling
S. Glutsch, Phys. Rev. B 69, 235317 (2004).


•  RKKY interaction in semiconductors: Effects of magnetic field and screening
Ch. Ziener, S. Glutsch, and F. Bechstedt, Phys. Rev. B 70, 075205 (2004).


•  Phonon deformation potentials of the E2(high) phonon mode of AlxGa1–xN
A. Sarua, M. Kuball, and J. E. Van Nostrand, Appl. Phys. Lett. 85, 2217 (2004).


•  Diode breakdown related to recombination active defects in block-cast multicrystalline silicon solar cells
W. Kwapil, M. Kasemann, P. Gundel, M. C. Schubert, W. Warta, P. Bronsveld, and G. Coletti, J. Appl. Phys. 106, 063530 (2009).


•  Highly p-doped regions in silicon solar cells quantitatively analyzed by small angle beveling and micro-Raman spectroscopy
M. Becker, U. Gösele, A. Hofmann, and S. Christiansen, J. Appl. Phys. 107, 074515 (2009).


•  Quantitative description of dark current–voltage characteristics of multicrystalline silicon solar cells based on lock-in thermography measurements
O. Breitenstein, A. Khanna, and W. Warta, Phys. Status Solidi A 207, 2159 (2010).


•  Effective density of states and carrier masses for Si/SiO2 superlattices from first principles
K. Seino and F. Bechstedt, Semicond. Sci. Technol. 26, 014024 (2011).


•  Estimation of heat loss in thermal wave experiments
H. Straube and O. Breitenstein, J. Appl. Phys. 109, 064515 (2011).


•  Infrared lock-in thermography through glass substrates
H. Straube and O. Breitenstein, Sol. Energy Mater. Sol. Cells 95, 2768 (2011).


•  Evaluation of Passivation Schemes of Large Area Si Solar Cells: Separating Serial Resistance from Other Losses by the CELLO Technique
A. Schütt, J. Carstensen, H. Föll, S. Keipert-Colberg, and D. Borchert,
Proc. 26th European Photovoltaic Solar Energy Conference, Hamburg (2011), Contribution 2BV.2.39, pp. 1534–1537.


•  Calculation of quantitative shunt values using photoluminescence imaging
Y. Augarten, T. Trupke, M. Lenio, J. Bauer, J. W. Weber, M. Juhl, M. Kasemann, and O. Breitenstein, Prog. Photovolt: Res. Appl. 21, 933 (2013).


•  Quantitative Defect Analysis on Solar Cells by Laser Beam Induced Current (LBIC) Measurements and 3D Network Simulations
M. Nguyen, A. Schütt, J. Carstensen, and H. Föll, MRS Fall Meeting 2012, MRS proceedings 1493 (2013) (MRS Online Proceedings Library).


•  A two-diode model regarding the distributed series resistance
O. Breitenstein and S. Rißland, Sol. Energy Mater. Sol. Cells 110, 77 (2013).


•  The Physics of Industrial Crystalline Silicon Solar Cells
O. Breitenstein, Semiconductors and Semimetals 89, 1–75 (2013).


•  The reliability of thermography- and luminescence-based series resistance and saturation current density imaging
O. Breitenstein, J. Bauer, D. Hinken, and K. Bothe, Sol. Energy Mater. Sol. Cells 137, 50 (2015).


•  Finite element simulation of inhomogeneous solar cells based on lock-in thermography and luminescence imaging
F. Frühauf, J. Wong, J. Bauer, and O. Breitenstein, Sol. Energy Mater. Sol. Cells 162, 103 (2017).


•  Validity analysis of the text book lumped series resistance approach for solar cells
A. van der Heide and J. Poortmans,
Proc. 35th European Photovoltaic Solar Energy Conference, Brussels (2018), Contribution 2DV.3.13, pp. 711–715.


•  (Rapid Communication) Strain and stress relationships for optical phonon modes in monoclinic crystals with β-Ga2O3 as an example
R. Korlacki, M. Stokey, A. Mock, S. Knight, A. Papamichail, V. Darakchieva, and M. Schubert, Phys. Rev. B, 102, 180101(R) (2020).
[I was the referee of this paper.]



•  Kriteriengestützte Vorschläge zur Getrennt-/Zusammenschreibung und zur Groß-/Kleinschreibung
H. E. Brekle, Jahresversammlung 2008 der Forschungsgruppe Deutsche Sprache, Stuttgart (Link).



•  Principles of Surface Physics
F. Bechstedt, Advanced Texts in Physics (Springer, 2003).


•  Excitons in Low-Dimensional Semiconductors
S. Glutsch, Springer Series in Solid-State Sciences, Vol. 141 (Springer, 2004).


•  Handbook of Nitride Semiconductors and Devices, Vol. 1
H. Morkoç, Materialwissenschaften (WILEY-VCH Weinheim, 2008).


•  Lock-in Thermography – Basics and Use for Evaluating Electronic Devices and Materials
O. Breitenstein, W. Warta, and M. Langenkamp, Springer Series in Advanced Microelectronics, Vol. 10 (2nd edition, Springer, 2010).


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Last update (content): 18 March 2024 / last technical revision: 10 May 2023 by J.-M. Wagner