[{"_id":"23472","intvolume":" 104","issue":"8","article_number":"085201","type":"journal_article","citation":{"mla":"Krauss-Kodytek, L., et al. “Nondegenerate Two-Photon Absorption in ZnSe: Experiment and Theory.” Physical Review B, vol. 104, no. 8, 085201, 2021, doi:10.1103/physrevb.104.085201.","bibtex":"@article{Krauss-Kodytek_Hannes_Meier_Ruppert_Betz_2021, title={Nondegenerate two-photon absorption in ZnSe: Experiment and theory}, volume={104}, DOI={10.1103/physrevb.104.085201}, number={8085201}, journal={Physical Review B}, author={Krauss-Kodytek, L. and Hannes, Wolf-Rüdiger and Meier, Torsten and Ruppert, C. and Betz, M.}, year={2021} }","chicago":"Krauss-Kodytek, L., Wolf-Rüdiger Hannes, Torsten Meier, C. Ruppert, and M. Betz. “Nondegenerate Two-Photon Absorption in ZnSe: Experiment and Theory.” Physical Review B 104, no. 8 (2021). https://doi.org/10.1103/physrevb.104.085201.","ama":"Krauss-Kodytek L, Hannes W-R, Meier T, Ruppert C, Betz M. Nondegenerate two-photon absorption in ZnSe: Experiment and theory. Physical Review B. 2021;104(8). doi:10.1103/physrevb.104.085201","apa":"Krauss-Kodytek, L., Hannes, W.-R., Meier, T., Ruppert, C., & Betz, M. (2021). Nondegenerate two-photon absorption in ZnSe: Experiment and theory. Physical Review B, 104(8), Article 085201. https://doi.org/10.1103/physrevb.104.085201","ieee":"L. Krauss-Kodytek, W.-R. Hannes, T. Meier, C. Ruppert, and M. Betz, “Nondegenerate two-photon absorption in ZnSe: Experiment and theory,” Physical Review B, vol. 104, no. 8, Art. no. 085201, 2021, doi: 10.1103/physrevb.104.085201.","short":"L. Krauss-Kodytek, W.-R. Hannes, T. Meier, C. Ruppert, M. Betz, Physical Review B 104 (2021)."},"year":"2021","user_id":"16199","publication":"Physical Review B","author":[{"first_name":"L.","full_name":"Krauss-Kodytek, L.","last_name":"Krauss-Kodytek"},{"last_name":"Hannes","full_name":"Hannes, Wolf-Rüdiger","first_name":"Wolf-Rüdiger"},{"first_name":"Torsten","orcid":"0000-0001-8864-2072","full_name":"Meier, Torsten","last_name":"Meier","id":"344"},{"last_name":"Ruppert","full_name":"Ruppert, C.","first_name":"C."},{"last_name":"Betz","full_name":"Betz, M.","first_name":"M."}],"date_created":"2021-08-24T08:40:32Z","status":"public","volume":104,"date_updated":"2023-04-21T11:15:02Z","doi":"10.1103/physrevb.104.085201","language":[{"iso":"eng"}],"title":"Nondegenerate two-photon absorption in ZnSe: Experiment and theory","department":[{"_id":"15"},{"_id":"170"},{"_id":"293"},{"_id":"35"}],"project":[{"_id":"53","name":"TRR 142"},{"name":"TRR 142 - Project Area A","_id":"54"},{"_id":"64","name":"TRR 142 - Subproject A7"},{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"publication_status":"published","publication_identifier":{"issn":["2469-9950","2469-9969"]}},{"user_id":"22501","extern":"1","abstract":[{"lang":"eng","text":"Broadband coherent anti-Stokes Raman scattering (B-CARS) has emerged in recent years as a promising chemosensitive high-speed imaging technique. B-CARS allows for the detection of vibrational sample properties in analogy to spontaneous Raman spectroscopy, but also makes electronic sample environments accessible due to its resonant excitation mechanism. Nevertheless, this technique has only gained interest in the biomedical field so far, whereas CARS investigations on solid-state materials are rare and concentrate on layered, two-dimensional materials such as graphene and hexagonal boron nitride . In this work, we discuss the specific properties of this technique when applied to single-crystalline samples, with respect to signal generation, phase matching, and selection rules in the model systems lithium niobate and lithium tantalate. Via polarized B-CARS measurements and subsequent phase retrieval, we validate the predicted selection rules, unequivocally assign the phonons of the A1(TO), E(TO) and A1(LO) branches to the detected CARS peaks, and address differences in spontaneous Raman spectroscopy concerning peak frequencies and scattering efficiencies. We thus establish this technique for future investigations of solid-state materials, specifically in the field of ferroelectric single crystals."}],"article_type":"original","volume":104,"date_created":"2023-10-11T08:43:24Z","status":"public","publication":"Physical Review B","author":[{"last_name":"Hempel","full_name":"Hempel, Franz","first_name":"Franz"},{"last_name":"Reitzig","first_name":"Sven","full_name":"Reitzig, Sven"},{"last_name":"Rüsing","id":"22501","first_name":"Michael","full_name":"Rüsing, Michael","orcid":"0000-0003-4682-4577"},{"full_name":"Eng, Lukas M.","first_name":"Lukas M.","last_name":"Eng"}],"publisher":"American Physical Society (APS)","quality_controlled":"1","article_number":"224308","issue":"22","intvolume":" 104","_id":"47979","year":"2021","type":"journal_article","citation":{"ieee":"F. Hempel, S. Reitzig, M. Rüsing, and L. M. Eng, “Broadband coherent anti-Stokes Raman scattering for crystalline materials,” Physical Review B, vol. 104, no. 22, Art. no. 224308, 2021, doi: 10.1103/physrevb.104.224308.","short":"F. Hempel, S. Reitzig, M. Rüsing, L.M. Eng, Physical Review B 104 (2021).","bibtex":"@article{Hempel_Reitzig_Rüsing_Eng_2021, title={Broadband coherent anti-Stokes Raman scattering for crystalline materials}, volume={104}, DOI={10.1103/physrevb.104.224308}, number={22224308}, journal={Physical Review B}, publisher={American Physical Society (APS)}, author={Hempel, Franz and Reitzig, Sven and Rüsing, Michael and Eng, Lukas M.}, year={2021} }","mla":"Hempel, Franz, et al. “Broadband Coherent Anti-Stokes Raman Scattering for Crystalline Materials.” Physical Review B, vol. 104, no. 22, 224308, American Physical Society (APS), 2021, doi:10.1103/physrevb.104.224308.","ama":"Hempel F, Reitzig S, Rüsing M, Eng LM. Broadband coherent anti-Stokes Raman scattering for crystalline materials. Physical Review B. 2021;104(22). doi:10.1103/physrevb.104.224308","apa":"Hempel, F., Reitzig, S., Rüsing, M., & Eng, L. M. (2021). Broadband coherent anti-Stokes Raman scattering for crystalline materials. Physical Review B, 104(22), Article 224308. https://doi.org/10.1103/physrevb.104.224308","chicago":"Hempel, Franz, Sven Reitzig, Michael Rüsing, and Lukas M. Eng. “Broadband Coherent Anti-Stokes Raman Scattering for Crystalline Materials.” Physical Review B 104, no. 22 (2021). https://doi.org/10.1103/physrevb.104.224308."},"title":"Broadband coherent anti-Stokes Raman scattering for crystalline materials","publication_status":"published","publication_identifier":{"issn":["2469-9950","2469-9969"]},"doi":"10.1103/physrevb.104.224308","date_updated":"2023-10-11T08:43:54Z","language":[{"iso":"eng"}]},{"publication":"Physical Review B","keyword":["pc2-ressources"],"author":[{"last_name":"Eckhoff","first_name":"Marco","full_name":"Eckhoff, Marco"},{"first_name":"Peter E.","full_name":"Blöchl, Peter E.","last_name":"Blöchl"},{"full_name":"Behler, Jörg","first_name":"Jörg","last_name":"Behler"}],"publication_identifier":{"issn":["2469-9950","2469-9969"]},"publication_status":"published","project":[{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"date_created":"2020-09-17T07:39:26Z","status":"public","title":"Hybrid density functional theory benchmark study on lithium manganese oxides","user_id":"61189","type":"journal_article","year":"2020","citation":{"apa":"Eckhoff, M., Blöchl, P. E., & Behler, J. (2020). Hybrid density functional theory benchmark study on lithium manganese oxides. Physical Review B. https://doi.org/10.1103/physrevb.101.205113","ama":"Eckhoff M, Blöchl PE, Behler J. Hybrid density functional theory benchmark study on lithium manganese oxides. Physical Review B. 2020. doi:10.1103/physrevb.101.205113","chicago":"Eckhoff, Marco, Peter E. Blöchl, and Jörg Behler. “Hybrid Density Functional Theory Benchmark Study on Lithium Manganese Oxides.” Physical Review B, 2020. https://doi.org/10.1103/physrevb.101.205113.","bibtex":"@article{Eckhoff_Blöchl_Behler_2020, title={Hybrid density functional theory benchmark study on lithium manganese oxides}, DOI={10.1103/physrevb.101.205113}, journal={Physical Review B}, author={Eckhoff, Marco and Blöchl, Peter E. and Behler, Jörg}, year={2020} }","mla":"Eckhoff, Marco, et al. “Hybrid Density Functional Theory Benchmark Study on Lithium Manganese Oxides.” Physical Review B, 2020, doi:10.1103/physrevb.101.205113.","short":"M. Eckhoff, P.E. Blöchl, J. Behler, Physical Review B (2020).","ieee":"M. Eckhoff, P. E. Blöchl, and J. Behler, “Hybrid density functional theory benchmark study on lithium manganese oxides,” Physical Review B, 2020."},"language":[{"iso":"eng"}],"date_updated":"2022-01-06T06:54:06Z","_id":"19503","doi":"10.1103/physrevb.101.205113"},{"title":"Electrostatic potential shape of gate-defined quantum point contacts","user_id":"42514","publication_identifier":{"issn":["2469-9950","2469-9969"]},"publication_status":"published","status":"public","date_created":"2020-07-29T08:27:47Z","author":[{"last_name":"Geier","full_name":"Geier, M.","first_name":"M."},{"first_name":"J.","full_name":"Freudenfeld, J.","last_name":"Freudenfeld"},{"last_name":"Silva","full_name":"Silva, J. T.","first_name":"J. T."},{"last_name":"Umansky","full_name":"Umansky, V.","first_name":"V."},{"full_name":"Reuter, Dirk","first_name":"Dirk","id":"37763","last_name":"Reuter"},{"last_name":"Wieck","full_name":"Wieck, A. D.","first_name":"A. D."},{"full_name":"Brouwer, P. W.","first_name":"P. W.","last_name":"Brouwer"},{"full_name":"Ludwig, S.","first_name":"S.","last_name":"Ludwig"}],"department":[{"_id":"15"},{"_id":"230"}],"publication":"Physical Review B","doi":"10.1103/physrevb.101.165429","date_updated":"2022-01-06T06:53:12Z","_id":"17435","year":"2020","type":"journal_article","citation":{"apa":"Geier, M., Freudenfeld, J., Silva, J. T., Umansky, V., Reuter, D., Wieck, A. D., … Ludwig, S. (2020). Electrostatic potential shape of gate-defined quantum point contacts. Physical Review B. https://doi.org/10.1103/physrevb.101.165429","ama":"Geier M, Freudenfeld J, Silva JT, et al. Electrostatic potential shape of gate-defined quantum point contacts. Physical Review B. 2020. doi:10.1103/physrevb.101.165429","chicago":"Geier, M., J. Freudenfeld, J. T. Silva, V. Umansky, Dirk Reuter, A. D. Wieck, P. W. Brouwer, and S. Ludwig. “Electrostatic Potential Shape of Gate-Defined Quantum Point Contacts.” Physical Review B, 2020. https://doi.org/10.1103/physrevb.101.165429.","mla":"Geier, M., et al. “Electrostatic Potential Shape of Gate-Defined Quantum Point Contacts.” Physical Review B, 2020, doi:10.1103/physrevb.101.165429.","bibtex":"@article{Geier_Freudenfeld_Silva_Umansky_Reuter_Wieck_Brouwer_Ludwig_2020, title={Electrostatic potential shape of gate-defined quantum point contacts}, DOI={10.1103/physrevb.101.165429}, journal={Physical Review B}, author={Geier, M. and Freudenfeld, J. and Silva, J. T. and Umansky, V. and Reuter, Dirk and Wieck, A. D. and Brouwer, P. W. and Ludwig, S.}, year={2020} }","short":"M. Geier, J. Freudenfeld, J.T. Silva, V. Umansky, D. Reuter, A.D. Wieck, P.W. Brouwer, S. Ludwig, Physical Review B (2020).","ieee":"M. Geier et al., “Electrostatic potential shape of gate-defined quantum point contacts,” Physical Review B, 2020."},"language":[{"iso":"eng"}]},{"_id":"17437","date_updated":"2022-01-06T06:53:12Z","doi":"10.1103/physrevb.101.125303","citation":{"short":"C. Ebler, P.A. Labud, A.K. Rai, D. Reuter, A.D. Wieck, A. Ludwig, Physical Review B (2020).","ieee":"C. Ebler, P. A. Labud, A. K. Rai, D. Reuter, A. D. Wieck, and A. Ludwig, “Electrical detection of excitonic states by time-resolved conductance measurements,” Physical Review B, 2020.","apa":"Ebler, C., Labud, P. A., Rai, A. K., Reuter, D., Wieck, A. D., & Ludwig, A. (2020). Electrical detection of excitonic states by time-resolved conductance measurements. Physical Review B. https://doi.org/10.1103/physrevb.101.125303","ama":"Ebler C, Labud PA, Rai AK, Reuter D, Wieck AD, Ludwig A. Electrical detection of excitonic states by time-resolved conductance measurements. Physical Review B. 2020. doi:10.1103/physrevb.101.125303","chicago":"Ebler, C., P. A. Labud, A. K. Rai, Dirk Reuter, A. D. Wieck, and A. Ludwig. “Electrical Detection of Excitonic States by Time-Resolved Conductance Measurements.” Physical Review B, 2020. https://doi.org/10.1103/physrevb.101.125303.","bibtex":"@article{Ebler_Labud_Rai_Reuter_Wieck_Ludwig_2020, title={Electrical detection of excitonic states by time-resolved conductance measurements}, DOI={10.1103/physrevb.101.125303}, journal={Physical Review B}, author={Ebler, C. and Labud, P. A. and Rai, A. K. and Reuter, Dirk and Wieck, A. D. and Ludwig, A.}, year={2020} }","mla":"Ebler, C., et al. “Electrical Detection of Excitonic States by Time-Resolved Conductance Measurements.” Physical Review B, 2020, doi:10.1103/physrevb.101.125303."},"type":"journal_article","year":"2020","language":[{"iso":"eng"}],"title":"Electrical detection of excitonic states by time-resolved conductance measurements","user_id":"42514","author":[{"first_name":"C.","full_name":"Ebler, C.","last_name":"Ebler"},{"full_name":"Labud, P. A.","first_name":"P. A.","last_name":"Labud"},{"full_name":"Rai, A. K.","first_name":"A. K.","last_name":"Rai"},{"id":"37763","last_name":"Reuter","full_name":"Reuter, Dirk","first_name":"Dirk"},{"first_name":"A. D.","full_name":"Wieck, A. D.","last_name":"Wieck"},{"first_name":"A.","full_name":"Ludwig, A.","last_name":"Ludwig"}],"department":[{"_id":"15"},{"_id":"230"}],"publication":"Physical Review B","publication_identifier":{"issn":["2469-9950","2469-9969"]},"publication_status":"published","status":"public","date_created":"2020-07-29T08:30:34Z"},{"publication":"Physical Review B","author":[{"last_name":"Li","first_name":"Yao","full_name":"Li, Yao"},{"last_name":"Li","first_name":"Guangyao","full_name":"Li, Guangyao"},{"last_name":"Zhai","first_name":"Xiaokun","full_name":"Zhai, Xiaokun"},{"first_name":"Shifu","full_name":"Xiong, Shifu","last_name":"Xiong"},{"last_name":"Liu","full_name":"Liu, Hongjun","first_name":"Hongjun"},{"full_name":"Wang, Xiao","first_name":"Xiao","last_name":"Wang"},{"last_name":"Chen","full_name":"Chen, Haitao","first_name":"Haitao"},{"last_name":"Gao","first_name":"Ying","full_name":"Gao, Ying"},{"last_name":"Zhang","first_name":"Xiu","full_name":"Zhang, Xiu"},{"first_name":"Tong","full_name":"Liu, Tong","last_name":"Liu"},{"last_name":"Ren","first_name":"Yuan","full_name":"Ren, Yuan"},{"full_name":"Ma, Xuekai","first_name":"Xuekai","id":"59416","last_name":"Ma"},{"last_name":"Fu","full_name":"Fu, Hongbing","first_name":"Hongbing"},{"last_name":"Gao","first_name":"Tingge","full_name":"Gao, Tingge"}],"publisher":"American Physical Society (APS)","date_created":"2022-04-27T19:51:27Z","status":"public","volume":101,"publication_status":"published","publication_identifier":{"issn":["2469-9950","2469-9969"]},"user_id":"59416","title":"Spin splitting in a MoS2 monolayer induced by exciton interaction","language":[{"iso":"eng"}],"citation":{"short":"Y. Li, G. Li, X. Zhai, S. Xiong, H. Liu, X. Wang, H. Chen, Y. Gao, X. Zhang, T. Liu, Y. Ren, X. Ma, H. Fu, T. Gao, Physical Review B 101 (2020).","ieee":"Y. Li et al., “Spin splitting in a MoS2 monolayer induced by exciton interaction,” Physical Review B, vol. 101, no. 24, Art. no. 245439, 2020, doi: 10.1103/physrevb.101.245439.","apa":"Li, Y., Li, G., Zhai, X., Xiong, S., Liu, H., Wang, X., Chen, H., Gao, Y., Zhang, X., Liu, T., Ren, Y., Ma, X., Fu, H., & Gao, T. (2020). Spin splitting in a MoS2 monolayer induced by exciton interaction. Physical Review B, 101(24), Article 245439. https://doi.org/10.1103/physrevb.101.245439","ama":"Li Y, Li G, Zhai X, et al. Spin splitting in a MoS2 monolayer induced by exciton interaction. Physical Review B. 2020;101(24). doi:10.1103/physrevb.101.245439","chicago":"Li, Yao, Guangyao Li, Xiaokun Zhai, Shifu Xiong, Hongjun Liu, Xiao Wang, Haitao Chen, et al. “Spin Splitting in a MoS2 Monolayer Induced by Exciton Interaction.” Physical Review B 101, no. 24 (2020). https://doi.org/10.1103/physrevb.101.245439.","mla":"Li, Yao, et al. “Spin Splitting in a MoS2 Monolayer Induced by Exciton Interaction.” Physical Review B, vol. 101, no. 24, 245439, American Physical Society (APS), 2020, doi:10.1103/physrevb.101.245439.","bibtex":"@article{Li_Li_Zhai_Xiong_Liu_Wang_Chen_Gao_Zhang_Liu_et al._2020, title={Spin splitting in a MoS2 monolayer induced by exciton interaction}, volume={101}, DOI={10.1103/physrevb.101.245439}, number={24245439}, journal={Physical Review B}, publisher={American Physical Society (APS)}, author={Li, Yao and Li, Guangyao and Zhai, Xiaokun and Xiong, Shifu and Liu, Hongjun and Wang, Xiao and Chen, Haitao and Gao, Ying and Zhang, Xiu and Liu, Tong and et al.}, year={2020} }"},"type":"journal_article","year":"2020","intvolume":" 101","_id":"30965","date_updated":"2022-06-19T19:38:22Z","issue":"24","doi":"10.1103/physrevb.101.245439","article_number":"245439"},{"_id":"40444","intvolume":" 101","article_number":"184108","issue":"18","citation":{"bibtex":"@article{von Bardeleben_Rauls_Gerstmann_2020, title={Carbon vacancy-related centers in <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mn>3</mml:mn><mml:mi>C</mml:mi></mml:math>-silicon carbide: Negative-<mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mi>U</mml:mi></mml:math> properties and structural transformation}, volume={101}, DOI={10.1103/physrevb.101.184108}, number={18184108}, journal={Physical Review B}, publisher={American Physical Society (APS)}, author={von Bardeleben, H. J. and Rauls, E. and Gerstmann, Uwe}, year={2020} }","mla":"von Bardeleben, H. J., et al. “Carbon Vacancy-Related Centers in <mml:Math Xmlns:Mml=\"http://Www.W3.Org/1998/Math/MathML\"><mml:Mn>3</Mml:Mn><mml:Mi>C</Mml:Mi></Mml:Math>-Silicon Carbide: Negative-<mml:Math Xmlns:Mml=\"http://Www.W3.Org/1998/Math/MathML\"><mml:Mi>U</Mml:Mi></Mml:Math> Properties and Structural Transformation.” Physical Review B, vol. 101, no. 18, 184108, American Physical Society (APS), 2020, doi:10.1103/physrevb.101.184108.","chicago":"Bardeleben, H. J. von, E. Rauls, and Uwe Gerstmann. “Carbon Vacancy-Related Centers in <mml:Math Xmlns:Mml=\"http://Www.W3.Org/1998/Math/MathML\"><mml:Mn>3</Mml:Mn><mml:Mi>C</Mml:Mi></Mml:Math>-Silicon Carbide: Negative-<mml:Math Xmlns:Mml=\"http://Www.W3.Org/1998/Math/MathML\"><mml:Mi>U</Mml:Mi></Mml:Math> Properties and Structural Transformation.” Physical Review B 101, no. 18 (2020). https://doi.org/10.1103/physrevb.101.184108.","ama":"von Bardeleben HJ, Rauls E, Gerstmann U. Carbon vacancy-related centers in <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mn>3</mml:mn><mml:mi>C</mml:mi></mml:math>-silicon carbide: Negative-<mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mi>U</mml:mi></mml:math> properties and structural transformation. Physical Review B. 2020;101(18). doi:10.1103/physrevb.101.184108","apa":"von Bardeleben, H. J., Rauls, E., & Gerstmann, U. (2020). Carbon vacancy-related centers in <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mn>3</mml:mn><mml:mi>C</mml:mi></mml:math>-silicon carbide: Negative-<mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mi>U</mml:mi></mml:math> properties and structural transformation. Physical Review B, 101(18), Article 184108. https://doi.org/10.1103/physrevb.101.184108","ieee":"H. J. von Bardeleben, E. Rauls, and U. Gerstmann, “Carbon vacancy-related centers in <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mn>3</mml:mn><mml:mi>C</mml:mi></mml:math>-silicon carbide: Negative-<mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\"><mml:mi>U</mml:mi></mml:math> properties and structural transformation,” Physical Review B, vol. 101, no. 18, Art. no. 184108, 2020, doi: 10.1103/physrevb.101.184108.","short":"H.J. von Bardeleben, E. Rauls, U. Gerstmann, Physical Review B 101 (2020)."},"type":"journal_article","year":"2020","user_id":"16199","publication":"Physical Review B","author":[{"last_name":"von Bardeleben","first_name":"H. J.","full_name":"von Bardeleben, H. J."},{"full_name":"Rauls, E.","first_name":"E.","last_name":"Rauls"},{"id":"171","last_name":"Gerstmann","orcid":"0000-0002-4476-223X","full_name":"Gerstmann, Uwe","first_name":"Uwe"}],"publisher":"American Physical Society (APS)","volume":101,"date_created":"2023-01-26T16:09:47Z","status":"public","date_updated":"2023-04-20T16:11:11Z","doi":"10.1103/physrevb.101.184108","language":[{"iso":"eng"}],"title":"Carbon vacancy-related centers in 3C-silicon carbide: Negative-U properties and structural transformation","department":[{"_id":"170"},{"_id":"295"},{"_id":"429"},{"_id":"15"},{"_id":"790"},{"_id":"35"}],"publication_identifier":{"issn":["2469-9950","2469-9969"]},"publication_status":"published","project":[{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"53","name":"TRR 142: TRR 142"},{"name":"TRR 142 - B: TRR 142 - Project Area B","_id":"55"},{"name":"TRR 142 - B03: TRR 142 - Subproject B03","_id":"68"}]},{"language":[{"iso":"eng"}],"page":"155103-5","type":"journal_article","citation":{"mla":"Azadi, Sam, and Thomas D. Kühne. “Unconventional Phase III of High-Pressure Solid Hydrogen.” Physical Review B, vol. 100, 2019, pp. 155103–05, doi:10.1103/physrevb.100.155103.","bibtex":"@article{Azadi_Kühne_2019, title={Unconventional phase III of high-pressure solid hydrogen}, volume={100}, DOI={10.1103/physrevb.100.155103}, journal={Physical Review B}, author={Azadi, Sam and Kühne, Thomas D.}, year={2019}, pages={155103–5} }","ama":"Azadi S, Kühne TD. Unconventional phase III of high-pressure solid hydrogen. Physical Review B. 2019;100:155103-155105. doi:10.1103/physrevb.100.155103","apa":"Azadi, S., & Kühne, T. D. (2019). Unconventional phase III of high-pressure solid hydrogen. Physical Review B, 100, 155103–155105. https://doi.org/10.1103/physrevb.100.155103","chicago":"Azadi, Sam, and Thomas D. Kühne. “Unconventional Phase III of High-Pressure Solid Hydrogen.” Physical Review B 100 (2019): 155103–5. https://doi.org/10.1103/physrevb.100.155103.","ieee":"S. Azadi and T. D. 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