Your search keyword '"Dietl, Sebastian"' showing total 9 results

1. Collective electronic excitation in a trapped ensemble of photogenerated dipolar excitons and free holes revealed by inelastic light scattering

Author

Dietl, Sebastian, Wang, Sheng, Schuh, Dieter, Wegscheider, Werner, Kotthaus, Jörg P., Pinczuk, Aron, Holleitner, Alexander W., and Wurstbauer, Ursula

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Photogenerated excitonic ensembles confined in coupled GaAs quantum wells are probed by a complementary approach of emission spectroscopy and resonant inelastic light scattering. Lateral electrostatic trap geometries are used to create dense systems of spatially indirect excitons and excess holes with similar densities in the order of 10$^{11}$ cm$^{-2}$. Inelastic light scattering spectra reveal a very sharp low-lying collective mode that is identified at an energy of 0.44 meV and a FWHM of only ~50 $\mu$eV. This mode is interpreted as a plasmon excitation of the excess hole system coupled to the photogenerated indirect excitons. The emission energy of the indirect excitons shifts under the application of a perpendicular applied electric field with the quantum-confined Stark effect unperturbed from the presence of free charge carriers. Our results illustrate the potential of studying low-lying collective excitations in photogenerated exciton systems to explore the many-body phase diagram, related phase transitions, and interaction physics., Comment: 19 pages, 5 figures

Published

2016

2. Method For Identifying And Evaluating The Fields Of Application Of A Digital Twin

Author

Herberger, David, Hübner, Marco, Stich, Volker, Oettl, Fabio, Dietl, Sebastian, Göltl, Christian, Müssig, Daniel, Schilp, Johannes, Herberger, David, Hübner, Marco, Stich, Volker, Oettl, Fabio, Dietl, Sebastian, Göltl, Christian, Müssig, Daniel, and Schilp, Johannes

Abstract

In the context of Industry 4.0, digital technologies and concepts are becoming more and more important in companies, as they can provide solutions to current challenges. The digital twin in particular can be used in various fields of application and thus create added value. However, the variety of different application possibilities as well as the difficult evaluation of the added value of the digital twin poses great challenges for companies. This publication therefore presents a method that offers companies a structured approach to identifying and subsequently evaluating possible uses of the digital twin based on their digital maturity. First, the digital maturity of a company is determined by means of a point-based questionnaire and a suitable identification method is proposed based on the result of the digital maturity. If a field of application could be identified with the proposed method, it is evaluated by a self-developed "Digital Twin Canvas" and, depending on the field of application, by a suitable simulation. By applying the method in various companies from different sectors, the method's functionality has been validated.

Published

2023

3. Method For Identifying And Evaluating The Fields Of Application Of A Digital Twin

Author

Oettl, Fabio, Dietl, Sebastian, Göltl, Christian, Müssig, Daniel, Schilp, Johannes, Herberger, David, Hübner, Marco, and Stich, Volker

Subjects

Digital Twin, Digital Readiness, Identification, Digital Shadow, Dewey Decimal Classification::600 | Technik::620 | Ingenieurwissenschaften und Maschinenbau, ddc:620, Evaluation, Konferenzschrift, Simulation, Digital Maturity

Abstract

In the context of Industry 4.0, digital technologies and concepts are becoming more and more important in companies, as they can provide solutions to current challenges. The digital twin in particular can be used in various fields of application and thus create added value. However, the variety of different application possibilities as well as the difficult evaluation of the added value of the digital twin poses great challenges for companies. This publication therefore presents a method that offers companies a structured approach to identifying and subsequently evaluating possible uses of the digital twin based on their digital maturity. First, the digital maturity of a company is determined by means of a point-based questionnaire and a suitable identification method is proposed based on the result of the digital maturity. If a field of application could be identified with the proposed method, it is evaluated by a self-developed "Digital Twin Canvas" and, depending on the field of application, by a suitable simulation. By applying the method in various companies from different sectors, the method's functionality has been validated.

Published

2023

4. Charge imbalance in trapped ensembles of dipolar excitons

Author

Brandt, Martin S. (Prof. Dr.), Holleitner, Alexander W. (Prof. Dr.), Dietl, Sebastian, Brandt, Martin S. (Prof. Dr.), Holleitner, Alexander W. (Prof. Dr.), and Dietl, Sebastian

Abstract

We optically excite dipolar excitons in a semiconductor heterostructure with a pair of coupled GaAs quantum wells. The lateral confinement of excited excitons relies on electrostatic trap geometries defined on the sample surface. We study mixed ensembles of neutral and charged excitons and identify a collective excitation. Furthermore, we determine the underlying mechanism of trion formation and show the influence of charge imbalance on the exciton photoluminescence., Wir untersuchen optisch erzeugte indirekte Exzitonen in einem Paar gekoppelter GaAs-Quantentröge einer Halbleiterheterostruktur. Der laterale Einschluss der erzeugten Exzitonen wird durch elektrostatische Fallen auf der Probenoberfläche erreicht. Wir untersuchen Ensembles aus neutralen und geladenen Exzitonen und finden eine kollektive Anregung. Außerdem bestimmen wir den Mechanismus der Bildung von Trionen und zeigen den Einfluss des Ladungsungleichgewichts auf die Exziton-Photolumineszenz.

Published

2020

5. Charge imbalance in trapped ensembles of dipolar excitons

Author

Holleitner, Alexander W. (Prof. Dr.), Holleitner, Alexander W. (Prof. Dr.);Brandt, Martin S. (Prof. Dr.), Dietl, Sebastian, Holleitner, Alexander W. (Prof. Dr.), Holleitner, Alexander W. (Prof. Dr.);Brandt, Martin S. (Prof. Dr.), and Dietl, Sebastian

Abstract

We optically excite dipolar excitons in a semiconductor heterostructure with a pair of coupled GaAs quantum wells. The lateral confinement of excited excitons relies on electrostatic trap geometries defined on the sample surface. We study mixed ensembles of neutral and charged excitons and identify a collective excitation. Furthermore, we determine the underlying mechanism of trion formation and show the influence of charge imbalance on the exciton photoluminescence., Wir untersuchen optisch erzeugte indirekte Exzitonen in einem Paar gekoppelter GaAs-Quantentröge einer Halbleiterheterostruktur. Der laterale Einschluss der erzeugten Exzitonen wird durch elektrostatische Fallen auf der Probenoberfläche erreicht. Wir untersuchen Ensembles aus neutralen und geladenen Exzitonen und finden eine kollektive Anregung. Außerdem bestimmen wir den Mechanismus der Bildung von Trionen und zeigen den Einfluss des Ladungsungleichgewichts auf die Exziton-Photolumineszenz.

Published

2020

6. Establishment of orthotopic brain tumor models in mice

Author

Dietl, Sebastian

Subjects

ddc:618, Tumor, Medulloblastom, Modell, Glioblastom, Maus

Abstract

Gehirntumore stellen die zweithäufigste Tumorart im Kindesalter dar. Trotz zahlreicher medizinischer Fortschritte verstirbt auch heute noch ca. 1/3 der Betroffenen und die Überlebenden leiden häufig unter geistigen und körperlichen Langzeitfolgen. Zwei Entitäten, die auch heute noch zu den großen Herausforderungen der pädiatrischen Onkologie zählen, sind das Glioblastom und das Medulloblastom. Um beide Tumorarten weiter erforschen und neue Therapiekonzepte entwickeln zu können, wurden im Zuge dieser Arbeit zwei orthotope Mausmodelle etabliert: ein syngenes Glioblastom- und ein xenogenes Medulloblastom-Modell: GL261-FLuc Glioblastom-Modell: Das Glioblastom ist ein seltener Tumor im Kindesalter. Die extrem schlechte Prognose macht neue Behandlungsstrategien jedoch dringend erforderlich. Immuntherapien könnten hier ein rationaler Ansatz sein. Durch orthotope Inokulation lentiviral transduzierter GL261-FLuc Zellen wurde im Rahmen dieser Arbeit das syngene GL261 Modell etabliert und hinsichtlich seiner biomorphologischen und immunologischen Eigenschaften evaluiert: Ähnlich wie humane Glioblastome zeigen GL261-FLuc Zellen in vivo ein aggressives Wachstum, welches von einer schnellen Proliferation und deutlichen Invasionsneigung geprägt ist. Histologisch bestehen GL261-FLuc Tumore aus astrozytär differenzierten Zellen, die neben typischen Nekrosen auch eine starke, funktionell pathologische Vaskularisierung zeigen. Interessanterweise offenbarte das in vivo BLI nach orthotoper Inokulation eine Phase der „Tumoradaptation“ (Tag 6-14), die immunologischer Natur zu sein scheint. Die Tatsache, dass das Tumorwachstum wie beim Menschen in einer prinzipiell immunkompetenten Umgebung stattfindet und dass GL261-FLuc Zellen eine konstitutionelle und durch IFN γ stimulierbare MHC Klasse I Expression aufweisen, qualifiziert das Modell für immuntherapeutische Untersuchungen. Insgesamt handelt es sich nicht nur um ein gut voraussag- und reproduzierbares Modell, das die immunologischen und bio-morphologischen Kennzeichen des humanen Vorbildes suffizient rekapituliert, sondern es liefert auch dank der Möglichkeit, das Zellwachstum mittels BLI zu verfolgen, interessante Einblicke in das in vivo Verhalten der Zellen. MB3W1 Medulloblastom-Modell: Das Medulloblastom ist der häufigste maligne Gehirntumor des Kindesalters und kann, wie neue Genexpressionsstudien zeigen, in verschiedene molekulare Subgruppen unterteilt werden. Für Gruppe 3 Medulloblastome, die mit Abstand die schlechteste klinische Prognose besitzen, gibt es aktuell nur limitierte Daten, unter anderem auch deshalb, weil kaum geeignete Mausmodelle existieren. Der außergewöhnliche Fall eines zweijährigen Jungen, der an einem äußerst aggressiven anaplastischen Medulloblastom verstorben war, führte zur Etablierung des zweiten Hirntumormodells. Mit Zellen dieses Tumors (MB3W1 Zellen), die nach extrakranieller Metastasierung aus malignen Pleuraergüssen isoliert werden konnten, wurde ein orthotopes Xenograftmodell etabliert. Erstaunlicherweise ließen die Zellen sowohl Tumorstammzell- als auch Gruppe 3-Charakteristika erkennen: In vitro wachsen MB3W1 Zellen wie für Stammzellen typisch in Form von Neurosphären und zeigen neben der Fähigkeit zur exponentiellen Langzeitproliferation auch eine hohe ALDH Aktivität. Die Expression typischer Oberflächenmarker wie CD15 und CD133 ist ebenfalls suggestiv für Tumorstammzelleigenschaften. Die hohe Tumorigenität von MB3W1 Zellen in immuninkompetenten Mäusen (bereits 500 Zellen führten zu 100 % Tumorraten) ist neben der Tatsache, dass die induzierten Tumore exakt die histopathologischen Eigenschaften des Primärtumors rekapitulierten und eine multilineäre Differenzierung zeigten, als weiteres Stammzell-kennzeichen zu werten. Ergänzend zum genetischen Profil (MYC Amplifikation, Gruppe 3 spezifisches Genexpressionsmuster, Tetraploidie, 17q Zugewinne), das MB3W1 Zellen klar als Gruppe 3 Medulloblastom identifiziert, spiegeln MB3W1 Zellen auch das aggressive und disseminierende Verhalten, welches Gruppe 3 Tumore auszeichnet, wider. Die Xenotransplantate zeigten nicht nur ein rapides invasives Wachstum in vivo, sondern es konnte interessanterweise auch am Versuchsende regelhaft eine Metastasierung der Zellen in den zerebrospinalen Liquor beobachtet werden. Das im Zuge dieser Arbeit etablierte Xenograftmodell komplementiert die beiden einzigen derzeit veröffentlichten syngenen Gruppe 3 Modelle, da es im Gegensatz zu diesen ohne zusätzliche genetische Manipulation auskommt. Die einzige Modifikation der Zellen (die lentivirale Transduktion mit eGFP und FLuc) diente dem besseren in vivo „Monitoring“, war optional und veränderte auch das biologische Verhalten der Zellen nicht. Insgesamt ist es ein einfaches und gut reproduzierbares Tumormodell, das die gleichzeitige Erforschung von Tumorstammzell- und Gruppe 3-Eigenschaften erlaubt. Vor allem vor dem Hintergrund des außergewöhnlichen klinischen Verlaufs des Primärtumors ist es ein extrem wertvolles Werkzeug, das in Zukunft hoffentlich dazu beitragen wird, neue gezielte Therapiestrategien für die Behandlung solch aggressiver Tumore entwickeln zu können., Brain tumors are the second most common tumor entity in childhood. Despite of advances in treatment, one third of patients dies and survivors often suffer from severe side effects of therapy. Two (even today) challenging tumor entities are glioblastoma and medulloblastoma. For exploring these tumors and developing new treatment strategies, two orthotopic brain tumor models in mice should be established within this work: a syngenic gliblastoma model and a xenogenic medulloblastoma model: GL261-FLuc glioblastoma model: Glioblastoma is rare in childhood, but because of the devastating prognosis new treatment options are urgently needed. Immunotherapy seems to be a rational strategy. Within this work an orthotopic mouse model was established using lentiviral transduced GL261-FLuc cells and evaluated regarding to its biomorphological and immunological features: Like human glioblastoma GL261-FLuc cells show aggressive tumor growth with high proliferation and invasion. Histologically tumors are built of astrocytic differentiated tumor cells and typically exhibit necrosis and pathological vascularisation. Interestingly tumor growth is characterized through a typical phase of adaption during day 6-14, which seems to be of immunological nature. This and the facts that tumor growth takes place in an immunocompetent environment and that GL261-Fluc cells show expression of MHC I (stimulable with IFN γ) makes this model valuable for immunotherapy investigations. Taken together the GL261-FLuc model is not only good predictable and reproducible, it also reflects the immunological and biomorphological features of the human counterpart. The ability to visualize the tumor growth with BLI gives interesting insights in tumor behaviour within this model. MB3W1 medulloblastoma model: Medulloblastoma is the most frequent brain tumor in childhood. New gene expression studies now reveal four distinct molecular subgroups of medulloblastoma. For group 3 tumors, which by far have the worst prognosis, only limiting data exists, not least because of a lack of suitable tumor models. An extraordinary case of a two-year-old boy suffering from a highly aggressive anaplastic medulloblastoma led to the second tumor model within this work. With cells, isolated from malignant pleural effusions of this tumor (MB3W1 cells), an orthotopic xenograft model was established. Interestingly tumor cells not only exhibit signs of a group 3 medulloblastoma, but also of tumor stem cells: In vitro cultured cells show exponential longterm proliferation, formation of neurospheres and expression of several stem cell markers like CD15, CD133 and high ALDH activity. In vivo tumor cells typically are highly tumorigenic in immunocompromised mice leading to exact copies of the primary tumor and furthermore show the capacity of multilineage differentiation. The clinical course of the patient and the genetic profile of MB3W1 cells (MYC amplification, group 3 gene expression pattern, tetraploidy and gain of chromosome 17q) clearly classifies the tumor as group 3 medulloblastoma. Furthermore the established MB3W1 tumor model mimics the aggressive behaviour of the patient’s tumor by recapitulating its dissemination tendency. Xenotransplants not only show rapid in vivo proliferation, but also metastasize regularly into the cerebrospinal fluid and invade from there again into the cerebral parenchyma. This xenograftmodel is a valid and good reproducible medulloblastoma model, which exhibits not only tumor stem cell features, but also has a clear group 3 signature and therefore complements the only two at the moment published group 3 models. Especially in light of the extraordinary clinical course of the patient, this model will be an extreme valuable instrument to further investigate this aggressive subtype of medulloblastoma and to develop new treatment strategies.

Published

2018

7. Collective electronic excitation in a trapped ensemble of photogenerated dipolar excitons and free holes revealed by inelastic light scattering

Author

Dietl, Sebastian, primary, Wang, Sheng, additional, Schuh, Dieter, additional, Wegscheider, Werner, additional, Kotthaus, Jörg P., additional, Pinczuk, Aron, additional, Holleitner, Alexander W., additional, and Wurstbauer, Ursula, additional

Published

2017

8. MB3W1 is an orthotopic xenograft model for anaplastic medulloblastoma displaying cancer stem cell- and Group 3-properties

Author

Dietl, Sebastian, primary, Schwinn, Stefanie, additional, Dietl, Susanne, additional, Riedel, Simone, additional, Deinlein, Frank, additional, Rutkowski, Stefan, additional, von Bueren, Andre O., additional, Krauss, Jürgen, additional, Schweitzer, Tilmann, additional, Vince, Giles H., additional, Picard, Daniel, additional, Eyrich, Matthias, additional, Rosenwald, Andreas, additional, Ramaswamy, Vijay, additional, Taylor, Michael D., additional, Remke, Marc, additional, Monoranu, Camelia M., additional, Beilhack, Andreas, additional, Schlegel, Paul G., additional, and Wölfl, Matthias, additional

Published

2016

9. MB3W1 is an orthotopic xenograft model for anaplastic medulloblastoma displaying cancer stem cell- and Group 3-properties

Author

Dietl, Sebastian, Schwinn, Stefanie, Dietl, Susanne, Riedl, Simone, Deinlein, Frank, Rutkowski, Stefan, von Bueren, Andre O., Krauss, Jürgen, Schweitzer, Tilmann, Vince, Giles H., Picard, Daniel, Eyrich, Matthias, Rosenwald, Andreas, Ramaswamy, Vijay, Taylor, Michael D., Remke, Marc, Monoranu, Camelia M., Beilhack, Andreas, Schlegel, Paul G., and Wölfl, Matthias

Subjects

Male, Group 3, Cancer Research, Mice, SCID, Mice, Cell Line, Tumor, Biomarkers, Tumor, Genetics, Animals, Humans, Animal model, Anaplastic medulloblastoma, Children, neoplasms, ddc:618, Cancer stem cells, Medulloblastoma/pathology, Orthotopic xenograft, Infant, Neoplasms, Experimental, Xenograft Model Antitumor Assays, Brain tumor, Technical Advance, Oncology, Neoplastic Stem Cells, Female, Neoplasms, Experimental/pathology, Medulloblastoma

Abstract

Background Medulloblastoma is the most common malignant brain tumor in children and can be divided in different molecular subgroups. Patients whose tumor is classified as a Group 3 tumor have a dismal prognosis. However only very few tumor models are available for this subgroup. Methods We established a robust orthotopic xenograft model with a cell line derived from the malignant pleural effusions of a child suffering from a Group 3 medulloblastoma. Results Besides classical characteristics of this tumor subgroup, the cells display cancer stem cell characteristics including neurosphere formation, multilineage differentiation, CD133/CD15 expression, high ALDH-activity and high tumorigenicity in immunocompromised mice with xenografts exactly recapitulating the original tumor architecture. Conclusions This model using unmanipulated, human medulloblastoma cells will enable translational research, specifically focused on Group 3 medulloblastoma. Electronic supplementary material The online version of this article (doi:10.1186/s12885-016-2170-z) contains supplementary material, which is available to authorized users.