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2. Multiphoton-pumped UV-Vis transient absorption spectroscopy of 2D materials: basic concepts and recent applications

Author

Glinka, Yuri D

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

2D materials are considered a key element in the development of next-generation electronics (nanoelectronics) due to their extreme thickness in the nanometer range and unique physical properties. The ultrafast dynamics of photoexcited carriers in such materials are strongly influenced by their interfaces, since the thickness of 2D materials is much smaller than the typical depth of light penetration into their bulk counterparts and the mean free path of photoexcited carriers. The resulting collisions of photoexcited carriers with interfacial potential barriers of 2D materials in the presence of a strong laser field significantly alter the overall dynamics of photoexcitation, allowing laser light to be directly absorbed by carriers in the conduction/valence band through the inverse bremsstrahlung mechanism. The corresponding ultrafast carrier dynamics can be monitored using multiphoton-pumped UV-Vis transient absorption spectroscopy. In this review, we discuss the basic concepts and recent applications of this spectroscopy for a variety of 2D materials, including transition-metal dichalcogenide monolayers, topological insulators, and other 2D semiconductor structures.

Published
2023
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3. To Classify is to Interpret: Building Taxonomies from Heterogeneous Data through Human-AI Collaboration

Author

Meier, Sebastian and Glinka, Katrin

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Graphics
Abstract

Taxonomy building is a task that requires interpreting and classifying data within a given frame of reference, which comes to play in many areas of application that deal with knowledge and information organization. In this paper, we explore how taxonomy building can be supported with systems that integrate machine learning (ML). However, relying only on black-boxed ML-based systems to automate taxonomy building would sideline the users' expertise. We propose an approach that allows the user to iteratively take into account multiple model's outputs as part of their sensemaking process. We implemented our approach in two real-world use cases. The work is positioned in the context of HCI research that investigates the design of ML-based systems with an emphasis on enabling human-AI collaboration.

Published
2023
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4. Identifying Explanation Needs of End-users: Applying and Extending the XAI Question Bank

Author

Sipos, Lars, Schäfer, Ulrike, Glinka, Katrin, and Müller-Birn, Claudia

Subjects
Computer Science - Human-Computer Interaction
Abstract

Explanations in XAI are typically developed by AI experts and focus on algorithmic transparency and the inner workings of AI systems. Research has shown that such explanations do not meet the needs of users who do not have AI expertise. As a result, explanations are often ineffective in making system decisions interpretable and understandable. We aim to strengthen a socio-technical view of AI by following a Human-Centered Explainable Artificial Intelligence (HC-XAI) approach, which investigates the explanation needs of end-users (i.e., subject matter experts and lay users) in specific usage contexts. One of the most influential works in this area is the XAI Question Bank (XAIQB) by Liao et al. The authors propose a set of questions that end-users might ask when using an AI system, which in turn is intended to help developers and designers identify and address explanation needs. Although the XAIQB is widely referenced, there are few reports of its use in practice. In particular, it is unclear to what extent the XAIQB sufficiently captures the explanation needs of end-users and what potential problems exist in the practical application of the XAIQB. To explore these open questions, we used the XAIQB as the basis for analyzing 12 think-aloud software explorations with subject matter experts. We investigated the suitability of the XAIQB as a tool for identifying explanation needs in a specific usage context. Our analysis revealed a number of explanation needs that were missing from the question bank, but that emerged repeatedly as our study participants interacted with an AI system. We also found that some of the XAIQB questions were difficult to distinguish and required interpretation during use. Our contribution is an extension of the XAIQB with 11 new questions. In addition, we have expanded the descriptions of all new and existing questions to facilitate their use.

Published
2023
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5. Critical-Reflective Human-AI Collaboration: Exploring Computational Tools for Art Historical Image Retrieval

Author

Glinka, Katrin and Müller-Birn, Claudia

Subjects
Computer Science - Human-Computer Interaction
Abstract

Just as other disciplines, the humanities explore how computational research approaches and tools can meaningfully contribute to scholarly knowledge production. We approach the design of computational tools through the analytical lens of 'human-AI collaboration.' However, there is no generalizable concept of what constitutes 'meaningful' human-AI collaboration. In terms of genuinely human competencies, we consider criticality and reflection as guiding principles of scholarly knowledge production. Although (designing for) reflection is a recurring topic in CSCW and HCI discourses, it has not been centered in work on human-AI collaboration. We posit that integrating both concepts is a viable approach to supporting 'meaningful' human-AI collaboration in the humanities. Our research, thus, is guided by the question of how critical reflection can be enabled in human-AI collaboration. We address this question with a use case that centers on computer vision (CV) tools for art historical image retrieval. Specifically, we conducted a qualitative interview study with art historians and extended the interviews with a think-aloud software exploration. We observed and recorded our participants' interaction with a ready-to-use CV tool in a possible research scenario. We found that critical reflection, indeed, constitutes a core prerequisite for 'meaningful' human-AI collaboration in humanities research contexts. However, we observed that critical reflection was not fully realized during interaction with the CV tool. We interpret this divergence as supporting our hypothesis that computational tools need to be intentionally designed in such a way that they actively scaffold and support critical reflection during interaction. Based on our findings, we suggest four empirically grounded design implications for 'critical-reflective human-AI collaboration'.

Published
2023

6. Is cochlear implantation a good treatment method for profoundly deafened elderly?

Author

Lachowska M, Pastuszka A, Glinka P, and Niemczyk K

Subjects
cochlear implantation, elderly, audiometry, speech perception, speech recognition, hearing loss, hearing aid, Geriatrics, RC952-954.6
Abstract

Magdalena Lachowska, Agnieszka Pastuszka, Paulina Glinka, Kazimierz Niemczyk Department of Otolaryngology, Hearing Implant Center, Medical University of Warsaw, Warsaw, Poland Purpose: To assess the benefits of cochlear implantation in the elderly. Patients and methods: A retrospective analysis of 31 postlingually deafened elderly (≥60 years of age) with unilateral cochlear implants was conducted. Audiological testing included preoperative and postoperative pure-tone audiometry and a monosyllabic word recognition test presented from recorded material in free field. Speech perception tests included Ling's six sound test (sound detection, discrimination, and identification), syllable discrimination, and monosyllabic and multisyllabic word recognition (open set) without lip-reading. Everyday life benefits from cochlear implantation were also evaluated. Results: The mean age at the time of cochlear implantation was 72.4 years old. The mean post-implantation follow-up time was 2.34 years. All patients significantly improved their audiological and speech understanding performances. The preoperative mean pure-tone average threshold for 500 Hz, 1,000 Hz, 2,000 Hz, and 4,000 Hz was 110.17 dB HL. Before cochlear implantation, all patients scored 0% on the monosyllabic word recognition test in free field at 70 dB SPL intensity level. The postoperative pure-tone average was 37.14 dB HL (the best mean threshold was 17.50 dB HL, the worst was 58.75 dB HL). After the surgery, mean monosyllabic word recognition reached 47.25%. Speech perception tests showed statistically significant improvement in speech recognition. Conclusion: The results of this study showed that cochlear implantation is indeed a successful treatment for improving speech recognition and offers a great help in everyday life to deafened elderly patients. Therefore, they can be good candidates for cochlear implantation and their age alone should not be a relevant or excluding factor when choosing candidates for cochlear implantation. Keywords: cochlear implantation, elderly, audiometry, speech perception, speech recognition, hearing loss, hearing aid

Published
2013

7. Observation of ultraslow hole dynamics in the 3D topological insulator Bi2Se3 coated with a thin MgF2 layer using multiphoton pumped UV-Vis transient absorption spectroscopy

Author

Glinka, Yuri D., He, Tingchao, and Sun, Xiao Wei

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Individual relaxation dynamics of electrons and holes in optically pumped semiconductors is rarely observed due to their overlap. Here we report the individual dynamics of long-lived (~200 mks) holes observed at room temperature in a 10 nm thick film of the 3D topological insulator (TI) Bi2Se3 coated with a 10 nm thick MgF2 layer using transient absorption spectroscopy in the UV-Vis region. The ultraslow hole dynamics was observed by applying multiphoton resonant pumping of massless Dirac fermions and bound valence electrons in Bi2Se3 at a certain wavelength sufficient for their photoemission and subsequent trapping at the Bi2Se3/MgF2 interface. The emerging deficit of electrons in the film makes it impossible for the remaining holes to recombine, thus causing their ultraslow dynamics measured at a specific probing wavelength. We also found an extremely long rise time (~600 ps) for this ultraslow optical response, which is due to the large spin-orbit coupling (SOC) splitting at the valence band maximum and the resulting intervalley scattering between the splitting components. The ultraslow hole dynamics in Bi2Se3 due to the presence of the Bi2Se3/MgF2 interface is nevertheless much faster than the known ultraslow electron dynamics at the Si/SiO2 interface, also induced by multiphoton excitation in Si. The observed dynamics of long-lived holes is gradually suppressed with decreasing Bi2Se3 film thickness for the 2D TI Bi2Se3 (film thickness 5, 4, and 2 nm) due to the loss of resonance conditions for multiphoton photoemission caused by the gap opening at the Dirac surface state nodes. This behavior indicates that the dynamics of massive Dirac fermions predominantly determines the relaxation of photoexcited carriers for both the 2D topologically nontrivial and 2D topologically trivial insulator phases.

Published
2022

9. Stylistic Portrait of English Fantasy Texts (Based on Jordan's 'The Eye of the World,' Martin's 'A Game of Thrones,' Rowling's 'Harry Potter and the Philosopher's Stone,' and 'Harry Potter and the Chamber of Secrets')

Author

Glinka, Nataliia, Zaichenko, Yuliia, and Machulianska, Anastasiia

Abstract

The paper is focused on stylistic features of English fantasy texts. The research materials include four fantasy novels written by British and American authors of the late 20th century: Jordan's "The Eye of the World," Martin's "A Game of Thrones," Rowling's "Harry Potter and the Philosopher's Stone," and "Harry Potter and the Chamber of Secrets." The research question of the study lies in need to systematize expressive means and stylistic devices used in the texts and distinguish the common stylistic features of English fantasy texts. To do this, the researchers implement the notion of a stylistic portrait of English fantasy text, and the main aim of the paper is to provide its definition and description. The study employed the complex of linguistic research methods, including analysis and generalization of theoretical sources, contextual analysis and the elements of quantitative analysis of linguistic units used in the texts. Based on three essential aspects of a stylistic portrait, the paper shows that the English fantasy texts are characterized by the dominance of expressive means and stylistic devices at the syntactic level of language. In addition, the researchers identified the most productive stylistically marked linguistic units at each level of language correlated with the semantic field within which they functioned, and studied connotative dominants in these texts.

Published
2021

10. Two-photon IR pumped UV-Vis transient absorption spectroscopy of Dirac fermions in the 2D and 3D topological insulator Bi2Se3

Author

Glinka, Yuri D., He, Tingchao, and Sun, Xiao Wei

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

It is often taken for granted that in pump-probe experiments on the topological insulator (TI) Bi2Se3 using IR pumping with a commercial Ti:Sapphire laser [~800 nm (1.55 eV photon energy)], the electrons are excited in the one-photon absorption regime, even when pumped with absorbed fluences in the mJ cm-2 range. Here, using UV-Vis transient absorption (TA) spectroscopy, we show that even at low-power IR pumping with absorbed fluences in the mkJ cm-2 range, the TA spectra of the TI Bi2Se3 extend across a part of the UV and the entire visible region. This observation suggests unambiguously that the two-photon pumping regime accompanies the usual one-photon pumping regime even at low laser powers applied. We attribute the high efficiency of two-photon pumping to the giant nonlinearity of Dirac fermions in the Dirac surface states (SS). On the contrary, one-photon pumping is associated with the excitation of bound valence electrons in the bulk into the conduction band. Two mechanisms of absorption bleaching were also revealed since they manifest themselves in different spectral regions of probing. These two mechanisms were assigned to the filling of the phase-space in the Dirac SS and bulk states and the corresponding Pauli blocking.

Published
2021
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11. Coherent surface-to-bulk vibrational coupling in the 2D topologically trivial insulator Bi2Se3 monitored by ultrafast transient absorption spectroscopy

Author

Glinka, Yuri D., He, Tingchao, and Sun, Xiao Wei

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Ultrafast carrier relaxation in the 2D topological insulator (TI) Bi2Se3 [gapped Dirac surface states (SS)] and how it inherits ultrafast relaxation in the 3D TI Bi2Se3 (gapless Dirac SS) remains a challenge for developing new optoelectronic devices based on these materials. Here ultrashort (100 fs) pumping pulses of ~340 nm wavelength (~3.65 eV photon energy) were applied to study ultrafast electron relaxation in the 2D TI Bi2Se3 films with a thickness of 2 and 5 quintuple layers (~2 and ~5 nm, respectively) using transient absorption (TA) spectroscopy in the ultraviolet-visible spectral region (1.65 - 3.85 eV). The negative and positive contributions of TA spectra were attributed to absorption bleaching that mostly occur in the bulk states and to the inverse bremsstrahlung type free carrier absorption in the surface states, respectively. Owing to this direct and selective access to the bulk and surface carrier dynamics, we were able to monitor coherent longitudinal optical (LO) phonon oscillations, which were successively launched in the bulk and surface states by the front of the relaxing electron population within the LO-phonon cascade emission. We have also recognized the coherent surface-to-bulk vibrational coupling that appears through the phase-dependent amplitude variations of coherent LO-phonon oscillations. This unique behavior manifests itself predominantly for the topologically trivial insulator phase of the 2D TI Bi2Se3 (2 nm thick film) in the photon energy range (~2.0 - 2.25 eV) where efficient energy exchange between the bulk and surface states occurs. We also found that the coherent surface-to-bulk vibrational coupling significantly weakens with increasing both the Bi2Se3 film thickness and pumping power.

Published
2021
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12. Investigating Modes of Activity and Guidance for Mediating Museum Exhibits in Mixed Reality

Author

Glinka, Katrin, Fischer, Patrick Tobias, Müller-Birn, Claudia, and Krohn, Silke

Subjects
Computer Science - Human-Computer Interaction
Abstract

We present an exploratory case study describing the design and realisation of a ''pure mixed reality'' application in a museum setting, where we investigate the potential of using Microsoft's HoloLens for object-centred museum mediation. Our prototype supports non-expert visitors observing a sculpture by offering interpretation that is linked to visual properties of the museum object. The design and development of our research prototype is based on a two-stage visitor observation study and a formative study we conducted prior to the design of the application. We present a summary of our findings from these studies and explain how they have influenced our user-centred content creation and the interaction design of our prototype. We are specifically interested in investigating to what extent different constructs of initiative influence the learning and user experience. Thus, we detail three modes of activity that we realised in our prototype. Our case study is informed by research in the area of human-computer interaction, the humanities and museum practice. Accordingly, we discuss core concepts, such as gaze-based interaction, object-centred learning, presence, and modes of activity and guidance with a transdisciplinary perspective.

Published
2021

13. Dynamic Opening of a Gap in Dirac Surface States of the Thin-Film 3D Topological Insulator Bi2Se3 Driven by the Dynamic Rashba Effect

Author

Glinka, Yuri D., He, Tingchao, and Sun, Xiao Wei

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Optical control of Dirac surface states (SS) in topological insulators (TI) remains one of the most challenging problems governing their potential applications in novel electronic and spintronic devices. Here, using visible-range transient absorption spectroscopy exploiting ~340 nm (~3.65 eV) pumping, we provide evidence for dynamic opening of a gap in Dirac SS of the thin-film 3D TI Bi2Se3, which has been induced by the dynamic Rashba effect occurring in the film bulk with increasing optical pumping power (photoexcited carrier density). The observed effect appears through the transient absorption band associated with inverse-bremsstrahlung-type free carrier absorption in the gapped Dirac SS. We have also recognized experimental signatures of the existence of the higher energy Dirac SS in the 3D TI Bi2Se3 (in addition to those known as SS1 and SS2) with energies of ~2.7 and ~3.9 eV (SS3 and SS4). It is evidenced that the dynamic gap opening has the same effect on the Dirac SS occurring at any energy.

Published
2021
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14. Situated Case Studies for a Human-Centered Design of Explanation User Interfaces

Author

Müller-Birn, Claudia, Glinka, Katrin, Sörries, Peter, Tebbe, Michael, and Michl, Susanne

Subjects
Computer Science - Human-Computer Interaction
Abstract

Researchers and practitioners increasingly consider a human-centered perspective in the design of machine learning-based applications, especially in the context of Explainable Artificial Intelligence (XAI). However, clear methodological guidance in this context is still missing because each new situation seems to require a new setup, which also creates different methodological challenges. Existing case study collections in XAI inspired us; therefore, we propose a similar collection of case studies for human-centered XAI that can provide methodological guidance or inspiration for others. We want to showcase our idea in this workshop by describing three case studies from our research. These case studies are selected to highlight how apparently small differences require a different set of methods and considerations. With this workshop contribution, we would like to engage in a discussion on how such a collection of case studies can provide a methodological guidance and critical reflection.

Published
2021

15. Clarifying ultrafast carrier dynamics in ultrathin films of the topological insulator Bi2Se3 using transient absorption spectroscopy

Author

Glinka, Yuri D., Li, Junzi, He, Tingchao, and Sun, Xiao Wei

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Ultrafast carrier dynamics in the topological insulator Bi2Se3 have recently been intensively studied using a variety of techniques. However, we are not aware of any successful experiments exploiting transient absorption (TA) spectroscopy for these purposes. Here we demonstrate that if the ~730 nm wavelength pumping (~1.7 eV photon energy) is applied to ultrathin Bi2Se3 films, TA spectra cover the entire visible region, thus unambiguously pointing to two-photon excitation (~3.4 eV). The carrier relaxation dynamics is found to be governed by the polar optical phonon cascade emission occurring in both the bulk states and the Dirac surface states (SS), including SS-bulk-SS vertical electron transport and being also exclusively influenced by whether the Dirac point is presented between the Dirac cones of the higher energy (~1.5 eV) Dirac SS (known as SS2). We have recognized that SS2 act as a valve substantially slowing down the relaxation of electrons when the gap between Dirac cones exceeds the polar optical phonon and resonant defects energies. The resulting progressive accumulation of electrons in the gapped SS2 becomes detectable through the inverse bremsstrahlung type free carrier absorption.

Published
2020
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19. Structural phase transitions and photoluminescence mechanism in a layer of 3D hybrid perovskite nanocrystals

Author

Glinka, Yuri D., Cai, Rui, Gao, Xian, Wu, Dan, Chen, Rui, and Sun, Xiao Wei

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Although the structural phase transitions in single-crystal hybrid methyl-ammonium (MA) lead halide perovskites (MAPbX3, X = Cl, Br, I) are common phenomena, they have never been observed in the corresponding nanocrystals. Here we demonstrate that two-photon-excited photoluminescence (PL) spectroscopy is capable of monitoring the structural phase transitions in MAPbX3 nanocrystals because nonlinear susceptibilities govern the light absorption rates. We provide experimental evidence that the orthorhombic-to-tetragonal structural phase transition in a single layer of 20-nm-sized 3D MAPbBr3 nanocrystals is spread out within the 70 - 140 K range. This structural phase instability range arises because, unlike in single-crystal MAPbX3, free rotations of MA ions in the corresponding nanocrystals are no longer restricted by a long-range MA dipole order. The resulting configurational entropy loss can be even enhanced by the interfacial electric field arising due to charge separation at the MAPbBr3/ZnO heterointerface, extending the orthorhombic-to-tetragonal structural phase instability range from 70 to 230 K. We conclude that the weak sensitivity of conventional one-photon-excited PL spectroscopy to the structural phase transitions in 3D MAPbX3 nanocrystals results from the structural phase instability providing negligible distortions of PbX6 octahedra. In contrast, the intensity of two-photon-excited PL and electric-field-induced one-photon-excited PL still remains sensitive enough to weak structural distortions due to the higher rank tensor nature of nonlinear susceptibilities involved. We also show that room-temperature PL originates from the radiative recombination of the optical-phonon vibrationally excited polaronic quasiparticles with energies might exceed the ground-state Frohlich polaron and Rashba energies due to optical-phonon bottleneck.

Published
2019

20. Distinguishing between dynamical and static Rashba effects in hybrid perovskite nanocrystals using transient absorption spectroscopy

Author

Glinka, Yuri D., Cai, Rui, Li, Junzi, Lin, Xiaodong, Xu, Bing, Wang, Kai, Chen, Rui, He, Tingchao, and Sun, Xiao Wei

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The dynamical and static Rashba effects in hybrid methylammonium (MA) lead halide perovskites have recently been theoretically predicted. However, only the static effect was experimentally confirmed so far. Here we report on the dynamical Rashba effect observed using snapshot transient absorption spectral imaging with 400 nm pumping for a fully encapsulated film of 20-nm-sized 3D MAPbBr3 nanocrystals. The effect causes a 240 meV splitting of the lowest-energy absorption bleaching band, initially appearing over sub-ps timescale and progressively stabilizing to 60 meV during 500 ps. The integrated intensities of the split subbands demonstrate a photon-helicity-dependent asymmetry, thus proving the Rashba-type splitting and providing direct experimental evidence for the Rashba spin-split edge states in lead halide perovskite materials. The ultrafast dynamics is governed by the relaxation of two-photon-excited electrons in the Rashba spin-split system caused by a built-in electric field originating from dynamical charge separation in the entire MAPbBr3 nanocrystal., Comment: Under consideration at Nature Communications

Published
2019

22. Three-Diffeomorphism Conformal Space over Lorentzian Manifold

Author

Glinka, Lukasz Andrzej

Subjects
Mathematics - General Mathematics
Abstract

Through making use of a Borel measure and a piecewise-Riemannian inner scalar product, it is shown that over a Lorentzian manifold every three diffeomorphisms generate a conformal space, whose elements are smooth vector-valued functions equipped with compact supports. Few examples, in particular a diffeoinvariant measure, are provided with respect to an arbitrary smooth function introduced as into consideration as a multiplier to a local scale factor., Comment: 5 pages

Published
2017

23. Now is the Time to Study the Timing of Influenza Vaccine

Author

Glinka, ER, Smith, DM, and Johns, ST

Subjects
Epidemiology, Biomedical and Clinical Sciences, Clinical Sciences, Health Sciences, HIV, HIV Infections, Humans, Influenza Vaccines, Influenza, Human, Vaccination, Virology, Clinical sciences
Published
2018

24. Nonlinear Optical Observation of Coherent Acoustic Dirac Plasmons in Thin-Film Topological Insulators

Author

Glinka, Yuri D., Babakiray, Sercan, Johnson, Trent A., Holcomb, Mikel B., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Low-energy collective electronic excitations exhibiting sound-like linear dispersion have been intensively studied both experimentally and theoretically for a long time. However, coherent acoustic plasmon modes appearing in time-domain measurements are rarely observed due to Landau damping by the single-particle continua. Here we report on the observation of coherent acoustic Dirac plasmon (CADP) modes excited in indirectly (electrostatically) opposite-surface coupled films of the topological insulator Bi2Se3. Using transient second harmonic generation, a technique capable of independently monitoring the in-plane and out-of-plane electron dynamics in the films, the GHz-range oscillations were observed without corresponding oscillations in the transient reflectivity. These oscillations were assigned to the transverse magnetic and transverse electric guided CADP modes induced by the evanescent guided Lamb acoustic waves and remained Landau undamped due to fermion tunneling between the opposite-surface Dirac states.

Published
2016
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26. Reduced Quantum General Relativity in Higher Dimensions

Author

Glinka, Lukasz Andrzej and Linker, Patrick

Subjects
Physics - General Physics
Abstract

The higher dimensional Quantum General Relativity of a Riemannian manifold being an embedded space in a space-time being a Lorentzian manifold is investigated. The model of quantum geometrodynamics, based on the Wheeler-DeWitt equation reduced to a first order functional quantum evolution supplemented through an additional eigenequation for the scalar curvature, is formulated. Furthermore, making use of the objective quantum gravity and global one-dimensional conjecture, the general wave function beyond the Feynman path integral technique is derived. The resulting quantum gravity model creates the opportunity of potentially new theoretical and phenomenological applications for astrophysics, cosmology, and physics., Comment: 10 pages, 0 figures

Published
2016

27. Angiopoietin-like 4 Is a Wnt Signaling Antagonist that Promotes LRP6 Turnover

Author

Kirsch, Nadine, Chang, Ling-Shih, Koch, Stefan, Glinka, Andrey, Dolde, Christine, Colozza, Gabriele, Benitez, Maria DJ, De Robertis, Edward M, and Niehrs, Christof

Subjects
Biochemistry and Cell Biology, Biological Sciences, Aetiology, 2.1 Biological and endogenous factors, Angiopoietin-Like Protein 4, Angiopoietins, Animals, Endocytosis, Humans, Low Density Lipoprotein Receptor-Related Protein-6, Phosphorylation, Receptors, LDL, Signal Transduction, Wnt Signaling Pathway, Wnt3A Protein, Xenopus, Xenopus Proteins, beta Catenin, LRP6, Wnt/β-catenin signaling, angiopoietin-like 4, syndecan, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology
Abstract

Angiopoietin-like 4 (ANGPTL4) is a secreted signaling protein that is implicated in cardiovascular disease, metabolic disorder, and cancer. Outside of its role in lipid metabolism, ANGPTL4 signaling remains poorly understood. Here, we identify ANGPTL4 as a Wnt signaling antagonist that binds to syndecans and forms a ternary complex with the Wnt co-receptor Lipoprotein receptor-related protein 6 (LRP6). This protein complex is internalized via clathrin-mediated endocytosis and degraded in lysosomes, leading to attenuation of Wnt/β-catenin signaling. Angptl4 is expressed in the Spemann organizer of Xenopus embryos and acts as a Wnt antagonist to promote notochord formation and prevent muscle differentiation. This unexpected function of ANGPTL4 invites re-interpretation of its diverse physiological effects in light of Wnt signaling and may open therapeutic avenues for human disease.

Published
2017

28. Effect of Mn doping on ultrafast carrier dynamics in thin films of the topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, Holcomb, Mikel B., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transient reflectivity (TR) measured at laser photon energy 1.51 eV from the indirectly intersurface coupled topological insulator Bi2-xMnxSe3 films (12 nm thick) revealed a strong dependence of the rise-time and initial decay-time constants on photoexcited carrier density and Mn content. In undoped samples (x = 0), these time constants are exclusively governed by electron-electron and electron-phonon scattering, respectively, whereas in films with x = 0.013 - 0.27 ultrafast carrier dynamics are completely controlled by photoexcited electron trapping by ionized Mn2+ acceptors and their dimers. The shortest decay-time (~0.75 ps) measured for the film with x = 0.27 suggests a great potential of Mn-doped Bi2Se3 films for applications in high-speed optoelectronic devices. Using Raman spectroscopy exploiting similar laser photon energy (1.58 eV), we demonstrate that due to indirect intersurface coupling in the films, the photoexcited electron trapping in the bulk enhances the electron-phonon interaction strength in Dirac surface states.

Published
2015
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29. Plasmon-enhanced electron-phonon coupling in Dirac surface states of the thin-film topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Raman measurements of a Fano-type surface phonon mode associated with Dirac surface states (SS) in Bi2Se3 topological insulator thin films allowed an unambiguous determination of the electron-phonon coupling strength in Dirac SS as a function of film thickness ranging from 2 to 40 nm. A non-monotonic enhancement of the electron-phonon coupling strength with maximum for the 8 - 10 nm thick films was observed. The non-monotonicity is suggested to originate from plasmon-phonon coupling which enhances electron-phonon coupling when free carrier density in Dirac SS increases with decreasing film thickness and becomes suppressed for thinnest films when anharmonic coupling between in-plane and out-of-plane phonon modes occurs. The observed about four-fold enhancement of electron-phonon coupling in Dirac SS of the 8 - 10 nm thick Bi2Se3 films with respect to the bulk samples may provide new insights into the origin of superconductivity in this-type materials and their applications.

Published
2015
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30. Angularly Deformed Special Relativity and its Results for Quantum Mechanics

Author

Glinka, Lukasz Andrzej

Subjects
Physics - General Physics
Abstract

In this paper, the deformed Special Relativity, which leads to an essentially new theoretical context of quantum mechanics, is presented. The formulation of the theory arises from a straightforward analogy with the Special Relativity, but its foundations are laid through the hypothesis on breakdown of the velocity-momentum parallelism which affects onto the Einstein equivalence principle between mass and energy of a relativistic particle. Furthermore, the derivation is based on the technique of an eikonal equation whose well-confirmed physical role lays the foundations of both optics and quantum mechanics. As a result, we receive the angular deformation of Special Relativity which clearly depicts the new deformation-based theoretical foundations of physics, and, moreover, offers both constructive and consistent phenomenological discussion of the theoretical issues such like imaginary mass and formal superluminal motion predicted in Special Relativity for this case. In the context of the relativistic theory, presence of deformation does not break the Poincar\'{e} invariance, in particular the Lorentz symmetry, and provides essential modifications of both bosons described through the Klein-Gordon equation and fermions satisfying the Dirac equation. On the other hand, on the level of discussion of quantum theory, there arises the concept of emergent deformed space-time, wherein the presence of angular deformation elucidates a certain new insight into the nature of spin, as well as both the Heisenberg uncertainty principle and the Schr\"odinger wave equation., Comment: 18 pages

Published
2015

31. Resonance-type thickness dependence of optical second harmonic generation in thin-films of the topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, Johnson, Trent A., Holcomb, Mikel B., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Optical second harmonic generation (SHG) has been measured for the first time in reflection from the nanometer-thick films (6 to 40 nm) of the topological insulator Bi2Se3 using 1.51 eV (820 nm) Ti:Sapphire laser photons and revealed a strong dependence of the integral SHG intensity on the film thickness. The integral SHG intensity was determined by area integration of the SHG rotational anisotropy patterns measured for different input-output light polarization geometries. A ~100-fold enhancement of the integral SHG intensity with decreasing film thickness has been suggested to result from the DC-electric-field-induced SHG (EFISHG) effects. Two sources of dynamically created DC electric field were proposed: (i) the capacitor-type DC electric field that gradually increases with decreasing film thickness from 40 to 6 nm due to a dynamical imbalance of photoexcited long-lived carriers between the opposite-surface Dirac surface states and (ii) an DC electric field associated with a nonlinearly excited Dirac plasmon, which is responsible for the resonant enhancement of the integral SHG intensity for the 10 nm thick film with a Lorentz-shaped resonance of ~1.6 nm full width at half maximum. Additionally to the general SHG enhancement trends with decreasing film thickness, a relative decrease of the out-of-plane contribution with respect to the in-plane contribution was observed. Using a theoretical treatment of the measured SHG rotational anisotropy patterns, this effect has been suggested to result from the joint contributions of the linear and quadratic DC electric field effects to the EFISHG response.

Published
2015
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32. Acoustic phonon dynamics in thin-films of the topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, Johnson, Trent A., Holcomb, Mikel B., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transient reflectivity traces measured for nanometer-sized films of the topological insulator Bi2Se3 revealed GHz-range oscillations driven within the relaxation of hot carriers photoexcited with ultrashort laser pulses of 1.51 eV photon energy. These oscillations have been suggested to result from acoustic phonon dynamics, including coherent longitudinal acoustic phonons in the form of standing acoustic waves. An increase of oscillation frequency from ~35 to ~70 GHz with decreasing film thickness from 40 to 15 nm was attributed to the interplay between two different regimes employing traveling-acoustic-waves for films thicker than 40 nm and the film bulk acoustic wave resonator (FBAWR) modes for films thinner than 40 nm. The amplitude of oscillations decays rapidly for films below 15 nm thick when the indirect intersurface coupling in Bi2Se3 films switches the FBAWR regime to that of the Lamb wave excitation. The frequency range of coherent longitudinal acoustic phonons is in good agreement with elastic properties of Bi2Se3.

Published
2015
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34. Thickness tunable quantum interference between surface phonon and Dirac plasmon states in thin-films of the topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, Johnson, Trent A., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on a >100-fold enhancement of Raman responses from Bi2Se3 thin films if laser photon energy switches from 2.33 eV (532 nm) to 1.58 eV (785 nm), which is due to direct optical coupling to Dirac surface states (SS) at the resonance energy of ~1.5 eV (a thickness-independent enhancement) and due to nonlinearly excited Dirac plasmon (a thickness-dependent enhancement). Owing to the direct optical coupling, we observed an in-plane phonon mode of hexagonally arranged Se-atoms associated with a continuous network of Dirac SS. This mode revealed a Fano lineshape for films <15 nm thick, resulting from quantum interference between surface phonon and Dirac plasmon states.

Published
2015
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35. Nonlinear optical observation of coherent acoustic Dirac plasmons in thin-film topological insulators.

Author

Glinka, Yuri D, Babakiray, Sercan, Johnson, Trent A, Holcomb, Mikel B, and Lederman, David

Subjects
MD Multidisciplinary
Abstract

Low-energy collective electronic excitations exhibiting sound-like linear dispersion have been intensively studied both experimentally and theoretically for a long time. However, coherent acoustic plasmon modes appearing in time-domain measurements are rarely observed due to Landau damping by the single-particle continua. Here we report on the observation of coherent acoustic Dirac plasmon (CADP) modes excited in indirectly (electrostatically) opposite-surface coupled films of the topological insulator Bi2Se3. Using transient second-harmonic generation, a technique capable of independently monitoring the in-plane and out-of-plane electron dynamics in the films, the GHz-range oscillations were observed without corresponding oscillations in the transient reflectivity. These oscillations were assigned to the transverse magnetic and transverse electric guided CADP modes induced by the evanescent guided Lamb acoustic waves and remained Landau undamped due to fermion tunnelling between the opposite-surface Dirac states.

Published
2016

36. Timing Matters ‐ Influenza Vaccination to HIV‐Infected Patients

Author

Glinka, ER, Smith, DM, and Johns, ST

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Infectious Diseases, Pneumonia & Influenza, Prevention, Influenza, Sexually Transmitted Infections, HIV/AIDS, Immunization, Emerging Infectious Diseases, Vaccine Related, 3.4 Vaccines, 6.1 Pharmaceuticals, Infection, Good Health and Well Being, Adult, Aged, Female, HIV Infections, Humans, Immunization Schedule, Incidence, Influenza Vaccines, Influenza, Human, Male, Middle Aged, Retrospective Studies, United States, HIV, influenza, influenza-like illness, timing, vaccination, Virology, Clinical sciences, Epidemiology
Abstract

ObjectivesPatients with HIV infection vaccinated early in the flu season are more likely to contract influenza or influenza-like illness (ILI) compared with those receiving late vaccination. It is known that antibody titres wane over time, particularly among individuals with HIV infection. It is unclear if the timing of influenza vaccination within the flu season affects the probability of an influenza infection later during the flu season. The aim of this study is to evaluate if there is a relationship between the timing of influenza vaccination and incidence of influenza or ILI in patients with HIV infection.MethodsA retrospective cohort study of HIV-infected patients in care at the Department of Veterans Affairs San Diego Healthcare System was conducted from 1 September 2005 to 31 May 2013. Among these patients, we evaluated whether there was a relationship between the timing of influenza vaccination and the incidence of laboratory-confirmed influenza, influenza diagnosed by a physician, or ILI.ResultsPatients who received influenza vaccine early in the season were more likely to contract influenza or ILI than patients who were vaccinated late (P < 0.01). Vaccinated patients who developed influenza or ILI were more likely to do so later in the season (P < 0.01).ConclusionsHIV-infected patients vaccinated early in the flu season were more likely to contract influenza or ILI than those vaccinated later in the season.

Published
2016

37. Effect of Mn doping on ultrafast carrier dynamics in thin films of the topological insulator Bi2Se3

Author

Glinka, Yuri D, Babakiray, Sercan, Holcomb, Mikel B, and Lederman, David

Subjects
Physical Sciences, Condensed Matter Physics, Affordable and Clean Energy, ultrafasct carrier dynamics, topological insulator, Mn doping, Materials Engineering, Nanotechnology, Fluids & Plasmas, Materials engineering, Condensed matter physics
Abstract

Transient reflectivity (TR) measured at laser photon energy 1.51 eV from the indirectly intersurface-coupled topological insulator Bi2-x Mn x Se3 films (12 nm thick) revealed a strong dependence of the rise-time and initial decay-time constants on photoexcited carrier density and Mn content. In undoped samples (x  =  0), these time constants are exclusively governed by electron-electron and electron-phonon scattering, respectively, whereas in films with x  =  0.013-0.27 ultrafast carrier dynamics are completely controlled by photoexcited electron trapping by ionized Mn(2+) acceptors and their dimers. The shortest decay-time (~0.75 ps) measured for the film with x  =  0.27 suggests a great potential of Mn-doped Bi2Se3 films for applications in high-speed optoelectronic devices. Using Raman spectroscopy exploiting similar laser photon energy (1.58 eV), we demonstrate that due to indirect intersurface coupling in the films, the photoexcited electron trapping in the bulk enhances the electron-phonon interaction strength in Dirac surface states.

Published
2016

38. Effect of carrier recombination on ultrafast carrier dynamics in thin films of the topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, Johnson, Trent A., Holcomb, Mikel B., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transient reflectivity (TR) from thin films (6 - 40 nm thick) of the topological insulator Bi2Se3 reveal ultrafast carrier dynamics, which suggest the existence of both radiative and non-radiative recombination between electrons residing in the upper cone of initially unoccupied high energy Dirac surface states (SS) and holes residing in the lower cone of occupied low energy Dirac SS. The modeling of measured TR traces allowed us to conclude that recombination is induced by the depletion of bulk electrons in films below ~20 nm thick due to the charge captured on the surface defects. We predict that such recombination processes can be observed using time-resolved photoluminescence techniques.

Published
2014
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39. On 't Hooft-Polyakov Monopole, Julia-Zee Dyon, and Higgs Field, throughout the Generalized Bogomoln'yi Equations

Author

Glinka, Lukasz Andrzej

Subjects
High Energy Physics - Theory
Abstract

In this paper, making use of the 't Hooft-Polyakov-Julia-Zee ansatz for the SU(2) Yang-Mills-Higgs gauge field theory, we present the straightforward generalization of the Bogomoln'yi equations and its several consequences. Particularly, this is shown that this idea is able to generate new types of non-abelian both dyons and magnetic monopoles and, moreover, that within the new model the scalar field can be described through the Coulomb potential, whereas, up to a constant, the non-abelian gauge field becomes the Wu-Yang monopole., Comment: 12 pages

Published
2014
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43. Plasmon-enhanced electron-phonon coupling in Dirac surface states of the thin-film topological insulator Bi2Se3

Author

Glinka, Yuri D, Babakiray, Sercan, and Lederman, David

Subjects
Mathematical Sciences, Physical Sciences, Engineering, Applied Physics
Abstract

Raman measurements of a Fano-type surface phonon mode associated with Dirac surface states (SS) in Bi2Se3 topological insulator thin films allowed an unambiguous determination of the electron-phonon coupling strength in Dirac SS as a function of film thickness ranging from 2 to 40nm. A non-monotonic enhancement of the electron-phonon coupling strength with maximum for the 8-10nm thick films was observed. The non-monotonicity is suggested to originate from plasmon-phonon coupling which enhances electron-phonon coupling when free carrier density in Dirac SS increases with decreasing film thickness and becomes suppressed for thinnest films when anharmonic coupling between in-plane and out-of-plane phonon modes occurs. The observed about four-fold enhancement of electron-phonon coupling in Dirac SS of the 8-10nm thick Bi2Se3 films with respect to the bulk samples may provide new insights into the origin of superconductivity in this-type materials and their applications.

Published
2015

44. Ultrafast carrier dynamics in thin-films of the topological insulator Bi2Se3

Author

Glinka, Yuri D., Babakiray, Sercan, Johnson, Trent A., Holcomb, Mikel B., and Lederman, David

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transient reflectivity measurements of thin films, ranging from 6 to 40 nm in thickness, of the topological insulator Bi2Se3 revealed a strong dependence of the carrier relaxation time on the film thickness. For thicker films the relaxation dynamics are similar to those of bulk Bi2Se3, where the contribution of the bulk insulating phase dominates over that of the surface metallic phase. The carrier relaxation time shortens with decreasing film thickness, reaching values comparable to those of noble metals. This effect may result from the hybridization of Dirac cone states at the opposite surfaces for the thinnest films.

Published
2013
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45. Effect of Monolayer Thickness Fluctuations on Coherent Exciton Coupling in Single Quantum Wells

Author

Glinka, Yuri D., Sun, Zheng, Erementchouk, Mikhail, Leuenberger, Michael N., Bristow, Alan D., Cundiff, Steven T., Bracker, Allan S., and Li, Xiaoqin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Monolayer fluctuations in the thickness of a semiconductor quantum well (QW) lead to three types of excitons, located in the narrower, average and thicker regions of the QW, which are clearly resolved in optical spectra. Whether or not these excitons are coherently coupled via Coulomb interactions is a long-standing debate. We demonstrate that different types of disorder in QWs distinctly affects the coherent coupling and that the coupling strength can be quantitatively measured using optical two-dimensional Fourier transform spectroscopy. We prove experimentally and theoretically that in narrow quantum wells the coherent coupling occurs predominantly between excitons residing in the disorder-free areas of the QWs and those residing in the plateau-type disorder. In contrast, excitons localized in the fault-type disorder potentials do not coherently couple to other excitons., Comment: 5 paages, 4 figures, journal submission

Published
2012

46. Time-resolved second harmonic generation study of buried semiconductor heterointerfaces using soliton-induced transparency

Author

Glinka, Y. D., Tolk, N. H., and Furdyna, J. K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The transient second harmonic generation and linear optical reflectivity signals measured simultaneously in reflection from GaAs/GaSb/InAs and GaAs/GaSb heterostructures revealed a new mechanism for creating self-induced transparency in narrow bandgap semiconductors at low temperatures, which is based on the dual-frequency electro-optic soliton propagation. This allows the ultrafast carrier dynamics at buried semiconductor heterointerfaces to be studied.

Published
2011
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47. {\AE}thereal Multiverse: Selected Problems of Lorentz Symmetry Violation, Quantum Cosmology, and Quantum Gravity

Author

Glinka, Lukasz Andrzej

Subjects
Physics - General Physics, General Relativity and Quantum Cosmology
Abstract

Draft of book strictly based on the author research results presented in the arXiv papers: 0906.3827[gr-qc], 0906.3825[gr-qc], 0905.3916[hep-ph], 0902.4811[hep-ph], 0902.2829[hep-th], 0812.0551[hep-th], 0809.5216[gr-qc], 0808.1035[gr-qc], 0804.3516[gr-qc], 0803.1533[gr-qc], 0801.4157[gr-qc], 0712.2769[hep-th], 0712.1674[gr-qc], 0711.1380[gr-qc], 0707.3341[gr-qc], gr-qc/0612079., Comment: 440 pages, no figures, no index. English language and minor typos in formulas improved. Modifications within Preface, Prologue, Subsection A1 of Chapter 1, Section F of Chapter 5, Epilogue, and Bibliography. Chapter 6 standardized to Planck units

Published
2011

48. Thermodynamical Quantum Gravity

Author

Glinka, Lukasz Andrzej

Subjects
General Relativity and Quantum Cosmology
Abstract

The canonically quantized 3+1 General Relativity with the global one dimensionality conjecture defines the model, which dimensionally reduced and secondary quantized yields the one-dimensional quantum field theory wherein the generic one-point correlations create a boson mass responsible for quantum gravity. In this paper, this simple model is developed in a wider sense. We propose to consider the thermodynamics of space quanta, constructed ab initio from the entropic formalism, as the quantum gravity phenomenology., Comment: 16 pages

Published
2009
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49. Novel Solution of Wheeler-DeWitt Theory

Author

Glinka, Lukasz Andrzej

Subjects
General Relativity and Quantum Cosmology
Abstract

Taking into account the global one-dimensionality conjecture recently proposed by the author, the Cauchy-like analytical wave functional of the Wheeler-DeWitt theory is derived. The crucial point of the integration strategy is canceling of the singular behavior of the effective potential, which is performed through the suitable change of variables introducing the invariant global dimension. In addition, the conjecture is extended onto the wave functionals dependent on both Matter felids as well as the invariant global dimension. Through application of the reduction within the quantum gravity model, the appropriate Dirac equation is obtained and than solved. The case of superposition is also briey discussed., Comment: 20 pages

Published
2009
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50. Energy renormalization and integrability within the massive neutrinos model

Author

Glinka, L. A.

Subjects
High Energy Physics - Phenomenology
Abstract

In this paper the massive neutrinos model arising due to the Snyder noncommutative geometry, proposed recently by the author is partially developed. By straightforward calculation it is shown that the masses of the chiral left- and right-handed Weyl fields treated as parameters fixed by experiments, lead to the consistent physical picture of the noncommutative geometry, and consequently yield renormalization of an energy of a relativistic particle and exact integrability within the proposed model. This feature of the model in itself both defines and emphasizes its significance and possible usefulness for both theory as well as phenomenology for high energy physics and astrophysics., Comment: v3: 27 pages, minor changes done

Published
2009

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