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939 results on '"Kravets P. P."'

1. Quantifying hydrogen bonding using electrically tunable nanoconfined water

Author

Wang, Ziwei, Bhattacharya, Anupam, Yagmurcukardes, Mehmet, Kravets, Vasyl, Díaz-Núñez, Pablo, Mullan, Ciaran, Timokhin, Ivan, Taniguchi, Takashi, Watanabe, Kenji, Grigorenko, Alexander N., Peeters, Francois, Novoselov, Kostya S., Yang, Qian, and Mishchenko, Artem

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Hydrogen bonding plays a crucial role in biology and technology, yet it remains poorly understood and quantified despite its fundamental importance. Traditional models, which describe hydrogen bonds as electrostatic interactions between electropositive hydrogen and electronegative acceptors, fail to quantitatively capture bond strength, directionality, or cooperativity, and cannot predict the properties of complex hydrogen-bonded materials. Here, we introduce a novel approach that conceptualizes the effect of hydrogen bonds as elastic dipoles in an electric field, which captures a wide range of hydrogen bonding phenomena in various water systems. Using gypsum, a hydrogen bond heterostructure with two-dimensional structural crystalline water, we calibrate the hydrogen bond strength through an externally applied electric field. We show that our approach quantifies the strength of hydrogen bonds directly from spectroscopic measurements and reproduces a wide range of key properties of confined water reported in the literature. Using only the stretching vibration frequency of confined water, we can predict hydrogen bond strength, local electric field, O-H bond length, and dipole moment. Our work also introduces hydrogen bond heterostructures - a new class of electrically and chemically tunable materials that offer stronger, more directional bonding compared to van der Waals heterostructures, with potential applications in areas such as catalysis, separation, and energy storage.

Published
2025

2. Visualization of topological shear polaritons in gypsum thin films

Author

Díaz-Núñez, Pablo, Lanza, Christian, Wang, Ziwei, Kravets, Vasyl G., Duan, Jiahua, Álvarez-Cuervo, José, Martín-Luengo, Aitana Tarazaga, Grigorenko, Alexander N., Yang, Qian, Paarmann, Alexander, Caldwell, Joshua, Alonso-González, Pablo, and Mishchenko, Artem

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

Low symmetry crystals have recently emerged as a platform for exploring novel light-matter interactions in the form of hyperbolic shear polaritons. These excitations exhibit unique optical properties such as frequency-dispersive optical axes and asymmetric light propagation and energy dissipation, which arise from the presence of non-orthogonal resonances. However, only non-vdW materials have been demonstrated to support hyperbolic shear polaritons, limiting their exotic properties and potential applications. Here we introduce for the first time novel shear phenomena in low symmetry crystal thin films by demonstrating the existence of elliptical and canalized shear phonon polaritons in gypsum, an exfoliable monoclinic sulphate mineral. Our results unveil a topological transition from hyperbolic shear to elliptical shear polaritons, passing through a canalization regime with strong field confinement. Importantly, we observe a significant slowdown of group velocity, reaching values as low as 0.0005c, highlighting the potential of gypsum for "slow light" applications and extreme light-matter interaction control. These findings expand the application scope of low-symmetry crystals with the benefits that an exfoliable material provides, such as stronger field confinement, tunability, and versatility for its incorporation in complex photonic devices that might unlock new optical phenomena at the nanoscale.

Published
2025

3. Ferromagnetic resonance in Y3AlFe4O12 garnets

Author

Popadiuk, D., Borynskyi, V., Kravets, A., Shlapa, Y., Solopan, S., Belous, A., Tovstolytkin, A., and Korenivski, V.

Subjects
Condensed Matter - Materials Science
Abstract

Spin dynamics in Al-substituted yttrium iron garnets is investigated using broadband ferromagnetic resonance measurements in the temperature range T=200-360 K. Using the measured data, the resonance field and linewidth as well as their temperature dependence are determined, with implications for the uniformity and overall quality of the samples prepared via different chemical fabrication routes. These key parameters governing the spin dynamics in the material are important for its applications in high-speed spintronic and magnonic devices., Comment: 8 pages, 3 figures; accepted for publication in Journal of Low Temperature Physics (2025)

Published
2025

4. Spin waves in Co$_2$FeGe films

Author

Popadiuk, D., Vovk, A., Bunyaev, S. A., Kakazei, G. N., Araujo, J. P., Strichovanec, P., Algarabel, P. A., Golub, V., Kravets, A., Korenivski, V., and Trzaskowska, A.

Subjects
Condensed Matter - Materials Science
Abstract

The dynamic magnetic properties of Full Heusler alloy thin films of Co$_2$FeGe, grown on MgO (001) substrates under different thermal conditions, were investigated. Brillouin light scattering and ferromagnetic resonance measurements revealed that depositing at room temperature followed by annealing at 300 deg C for 1 hour produces the best results for maximizing magnetization, exchange stiffness, and minimizing spin-dynamic dissipation in the films, which are desirable characteristics for high-speed spintronic devices. Additionally, strong hybridization of spin waves in the Damon-Eshbach geometry was observed, which is attractive for applications in magnonic signal processing circuits., Comment: 13 pages, 6 figures

Published
2024

5. Addressing Blind Guessing: Calibration of Selection Bias in Multiple-Choice Question Answering by Video Language Models

Author

Loginova, Olga, Bezrukov, Oleksandr, and Kravets, Alexey

Subjects
Computer Science - Computation and Language
Abstract

Evaluating Video Language Models (VLMs) is a challenging task. Due to its transparency, Multiple-Choice Question Answering (MCQA) is widely used to measure the performance of these models through accuracy. However, existing MCQA benchmarks fail to capture the full reasoning capabilities of VLMs due to selection bias, when models disproportionately favor certain answer options based on positional patterns observed during training. In this work, we conduct a comprehensive empirical analysis of several VLM architectures across major datasets designed to assess complex video-focused reasoning. We identify where the bias is most pronounced and demonstrate to what extent model responses reflect genuine understanding of video content and related questions, as opposed to reliance on arbitrary patterns or superficial cues, such as answer position. By decomposing the MCQA task and adapting fairness bias metrics to VLMs, we introduce a post-processing calibration technique BOLD to balance this bias. Our results show that reducing selection bias improves not only debiasing metrics but also overall model performance, including Accuracy and F1 Mean score. Our method, by suppressing "blind guessing", offers a more cost- and time-effective approach to mitigating selection bias compared to existing techniques. This study represents the first focused investigation of selection bias in video-to-text LLM-powered models.

Published
2024

6. Room- and low-temperature magnetic parameters of Y$_3$AlFe$_4$O$_{12}$ garnets

Author

Borynskyi, Vladyslav, Popadiuk, Dariia, Kravets, Anatolii, Shlapa, Yuliia, Solopan, Serhii, Korenivski, Vladislav, Belous, Anatolii, and Tovstolytkin, Alexandr

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Magnetic properties of Y$_3$AlFe$_4$O$_{12}$ garnet ceramics have been studied over a wide range of temperature ($3-370$ K) and magnetic fields (up to $2$ kOe). Effects of varying the temperature on some of the application-specific magnetic characteristics have been analyzed in detail. With the decrease in temperature, the effective anisotropy constant, $K_{Eff}$, is found to sharply rise below $\sim150$ K, while the saturation magnetization, $M_s$, changes only slightly ($<20\%$ within $3-250$ K). The exchange stiffness, $A_{ex}$, and spin wave stiffness, $D$, parameters mirror the relatively smooth behavior of the magnetization at low temperatures but display a rapid drop when $T$ approaches $T_C\approx436$ K. The temperature dependence of the domain wall thickness and the critical single-domain size correlate with the corresponding values for pure Y$_3$Fe$_5$O$_{12}$ (YIG) and are in agreement with the theoretical estimates. We conclude by discussing the ways of how to use the obtained results for tailoring the magnetic properties of YIG-based materials for technological applications., Comment: 16 pages, 6 figures, full-length article submitted to a journal

Published
2024

7. CLIP Adaptation by Intra-modal Overlap Reduction

Author

Kravets, Alexey and Namboodiri, Vinay

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Numerous methods have been proposed to adapt a pre-trained foundational CLIP model for few-shot classification. As CLIP is trained on a large corpus, it generalises well through adaptation to few-shot classification. In this work, we analyse the intra-modal overlap in image space in terms of embedding representation. Our analysis shows that, due to contrastive learning, embeddings from CLIP model exhibit high cosine similarity distribution overlap in the image space between paired and unpaired examples affecting the performance of few-shot training-free classification methods which rely on similarity in the image space for their predictions. To tackle intra-modal overlap we propose to train a lightweight adapter on a generic set of samples from the Google Open Images dataset demonstrating that this improves accuracy for few-shot training-free classification. We validate our contribution through extensive empirical analysis and demonstrate that reducing the intra-modal overlap leads to a) improved performance on a number of standard datasets, b) increased robustness to distribution shift and c) higher feature variance rendering the features more discriminative for downstream tasks., Comment: BMVC 2024, Oral

Published
2024

8. Zero-Shot Class Unlearning in CLIP with Synthetic Samples

Author

Kravets, A. and Namboodiri, V.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Machine unlearning is a crucial area of research. It is driven by the need to remove sensitive information from models to safeguard individuals' right to be forgotten under rigorous regulations such as GDPR. In this work, we focus on unlearning within CLIP, a dual vision-language encoder model trained on a massive dataset of image-text pairs using contrastive loss. To achieve forgetting we expand the application of Lipschitz regularization to the multimodal context of CLIP. Specifically, we ensure the smoothing of both visual and textual embeddings associated with the class intended to be forgotten relative to the perturbation introduced to the samples from that class. Additionally, importantly, we remove the necessity for real forgetting data by generating synthetic samples through gradient ascent maximizing the target class. Our forgetting procedure is iterative, where we track accuracy on a synthetic forget set and stop when accuracy falls below a chosen threshold. We employ a selective layers update strategy based on their average absolute gradient value to mitigate over-forgetting. We validate our approach on several standard datasets and provide thorough ablation analysis and comparisons with previous work., Comment: Published in WACV 2025 conference

Published
2024

12. Weight growth of different generation of the trout Parasalmo mykiss on Lake Imandra

Author

Kalinina N. R., Anokhina V. S., Kravets P. P., and Tyukina O. S.

Subjects
freshwater aquaculture, trout, cage culture, biomass, growth, degree-days, General Works
Abstract

The averaged indicators of the weight growth of four generations of trout at different temperatures in the time interval of the life cycle from the transfer of larvae to cultivation until the fish reaches a portioned commercial weight of 400 g when the first withdrawal of products for sale takes place have been analyzed. It has been shown that fish of different generations passes into the weight category "goods" sequentially, but after reaching different ages, while there is no direct correlation between the terms "generation formation" – "first withdrawal for sale". According to our data the most intensive weight growth of fish has been noted in the temperature range equal to 8–13 °C. An increase in the water temperature in the cages to 15–18 °C has led to a slowdown, and then to the suspension of the accumulation of fish biomass. In cages operating in the area of Kola NPP heated water trout of April generation gains the commercial weight of 400 g in 7–8 months after landing of larvae for cultivation, November trout – after 15 months. Trout of October and January generation reaches commercial weight at 11 and 9 months, respectively. The stretching of timing of biomass accumulation is most pronounced in the autumn generation of trout. It has been found that the greatest increase in weight per unit body (145.1 mg per day) is provided by the trout of the January biological group, the smallest – by the November trout (75.8 mg per day). The energy reserve of heat allowing for differently derived individuals to reach a commodity weight of 400 g, is in the range from 3 320 to 5 300 degree-day.

Published
2018
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13. Development of safety system in salmon fish farms of the Murmansk region

Author

Ivanitskaya O. A., Kalinina N. R., Kravets P. P., Shoshina E. V., and Malaeva A. V.

Subjects
Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991
Abstract

The study presents the development of a biosafety system in aquaculture activities on the territory of the Murmansk region, accounting for the existing scientific developments and recommendations. The authors’ scientific and practical experience in cultivating the hydrobionts in the conditions of the Polar region is the core of the study. The materials for the development of the regional biosafety program of salmon cages farms were the longstanding epizootic and ichthiopathological studies of the department of fish physiology and diseases, aquaculture objects of the Murmansk Regional Animal Disease Control Center (2013–2019). The most significant risks for salmon net farms of the Murmansk region are: carrying out activities in the zone of risky fish farming; lack (or scarcity) of high-quality nursery material of domestic origin, absence of the center for research and prevention of fish diseases; the absence of the specialized enterprise for aquaculture waste disposal. The developed system of practical safety of aquaculture enterprises in the region will allow managing the risks through certain efforts and events. The principles of biosafety system development in accordance with the environmental requirements and associated conditions for maintaining the epizootic and ichthyopathological safety in the commercial cultivation of fish are considered. Preventive measures to maintain epizootic safety in fish farms have been developed. Suggestions and recommendations are formulated to conduct safe aquaculture activities in the conditions of the Murmansk region. A integrated approach to biosafety through certain risk management activities is aimed at solving the problems of preserving the health of cultivated objects resulting in the maximal feasibility of the enterprise and maintaining the biodiversity of natural communities and environmental sustainability in the region.

Published
2022
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14. Technical and economic indicators calculation for rainbow trout juveniles growing nursery in Murmansk region

Author

Priymak P. G., Kravets P. P., Boroukhin D. S., and Lyutkevich A. I.

Subjects
Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991
Abstract

The paper describes characteristic features of rainbow trout fish seed material market in Murmansk region and in Russia, gives the description of the main elements of the organizational and production plans of the farm enterprise, presents the fish-breeding calculation of the proposed farm as well as the main technical and economic indicators. The urgency of creating a nursery for growing rainbow trout juveniles in Murmansk region is justified.

Published
2022
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15. Distribution and population characteristics of Mytilus edulis L. in the Sel'dyanaya, Kruglaya and Levaya Bays (the Chupa Inlet, White Sea)

Author

Khacheturova K. S. and Kravets P. P.

Subjects
blue mussel, mussel's settlements, White Sea, population structure, General Works
Abstract

The results of researching the structure of Mytilus edulis L. settlements and the growth rate of mollusks on the littoral of the Kruglaya, Sel'dyanaya and Levaya Bays of the Chupa Inlet, the White Sea in summer 2014–2015 have been presented; the spatial distribution, abundance indices, size-weight and age structure have been analyzed. Mussels form the huge aggregations on the middle and lover intertidal zone due to the nature of the bay bed represented by the stone-boulder belt and providing the mussel with large attachment surface. The increase in the abundance of mussels is observed simultaneously in two directions: from the upper horizon of the littoral to the lower one and from the mouth of the bay to its opposite part. In 2014, the highest mussel abundance was registered in the Kruglaya Bay, in 2015 – in the Levaya Bay. Molluscs of this species form aggregations with high biomass and density on the lower horizon of the littoral, which is associated with increased water exchange due to tidal currents that provide mussels with food. Mussels characterized by the largest size-weight parameters have been found in the Sel'dyanaya Bay. Mussels of 3–6 years dominated in the Kruglaya and Sel'dyanaya Bays in 2015. The mussels of 0–2 years dominated in the Levaya Bay the same year; the intensive subsidence of juveniles in the period under study has been observed. The highest growth rate has been observed for mussels inhabiting the Levaya Bay.

Published
2017
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16. Structure of settlements of Macoma balthica in the southern knee of the Kola Bay

Author

Smirnova A. S. and Kravets P. P.

Subjects
Macoma balthica, Kola Bay, biomass, population density, General Works
Abstract

The study of seasonal dynamics of size-mass structure of Macoma balthica settlements has been investigated on the littoral zone of the southern part of the Kola Bay. Age structure has been calculated; data on the density and biomass of settlements have been obtained; the distribution of the mollusk on the littoral has been shown. On the littoral zone of the Kola Bay makoms are found everywhere, mostly inhabiting the lower and middle horizons of the littoral; this distribution depends on the content of food particles, which is an indirect indicator of the granulometric composition of soil and total organic content. The highest indicators of biomass and the number of settlements have been marked in the intertidal zone near the village of Abram-mys. This is due to the presence of silty-sandy soil – the most suitable habitat for shellfish, as the abundance of settlement figures increases as the silting of sand. The increase in the density of makom settlements in autumn occurs due to the active settling of juveniles. Shellfish from the right bank settlements surpass others on the morphometric parameters. Large shell sizes are explained by the presence of streams ensuring the inflow of food particles. Researches of the size-distribution of Macoma balthica mass parameters have shown that their values are increased from the upper to the lower horizon littoral as in the lower horizon the enhanced water exchange contributes to the self-cleaning processes and provides shellfish by food. The dominance of mollusks of younger age groups (0–3 years) is characteristic for all settlements. Clams with the maximum age of 8 years have been found in the New Bridge area. The presence in the samples of large number of mollusks of younger age groups indicates the normal development of Macoma balthica settlements.

Published
2017
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Author

Zagryadsky, V. A., Korolev, K. O., Kravets, Ya. M., Kuznetsova, T. M., Kurochkin, A. V., Makoveeva, K. A., Skobelin, I. I., Strepetov, A. N., and Udalova, T. A.

Published
2024
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22. Ultrafast inertia-free switching of double magnetic tunnel junctions

Author

Dzhezherya, Yu., Polynchuk, P., Kravets, A., and Korenivski, V.

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

We investigate the switching of a magnetic nanoparticle comprising the middle free layer of a memory cell based on a double magnetic tunnel junction under the combined effect of spin-polarized current and weak on-chip magnetic field. We obtain the timing and amplitude parameters for the current and field pulses needed to achieve 100 ps range \emph{inertia-free} switching under \emph{least-power} dissipation. The considered method does not rely on the stochastics of thermal agitation of the magnetic nanoparticle typically accompanying spin-torque switching. The regime of ultimate switching speed-efficiency found in this work is promising for applications in high-performance nonvolatile memory., Comment: 4 pages, 2 figures

Published
2023

23. Network representation of multicellular activity in pancreatic islets: Technical considerations for functional connectivity analysis

Author

Šterk, Marko, Zhang, Yaowen, Pohorec, Viljem, Leitgeb, Eva Paradiž, Dolenšek, Jurij, Benninger, Richard KP, Stožer, Andraž, Kravets, Vira, and Gosak, Marko

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Diabetes, 1.1 Normal biological development and functioning, Underpinning research, Metabolic and endocrine, Islets of Langerhans, Animals, Computational Biology, Mice, Insulin, Humans, Insulin-Secreting Cells, Insulin Secretion, Models, Biological, Calcium, Calcium Signaling, Mathematical Sciences, Information and Computing Sciences, Bioinformatics
Abstract

Within the islets of Langerhans, beta cells orchestrate synchronized insulin secretion, a pivotal aspect of metabolic homeostasis. Despite the inherent heterogeneity and multimodal activity of individual cells, intercellular coupling acts as a homogenizing force, enabling coordinated responses through the propagation of intercellular waves. Disruptions in this coordination are implicated in irregular insulin secretion, a hallmark of diabetes. Recently, innovative approaches, such as integrating multicellular calcium imaging with network analysis, have emerged for a quantitative assessment of the cellular activity in islets. However, different groups use distinct experimental preparations, microscopic techniques, apply different methods to process the measured signals and use various methods to derive functional connectivity patterns. This makes comparisons between findings and their integration into a bigger picture difficult and has led to disputes in functional connectivity interpretations. To address these issues, we present here a systematic analysis of how different approaches influence the network representation of islet activity. Our findings show that the choice of methods used to construct networks is not crucial, although care is needed when combining data from different islets. Conversely, the conclusions drawn from network analysis can be heavily affected by the pre-processing of the time series, the type of the oscillatory component in the signals, and by the experimental preparation. Our tutorial-like investigation aims to resolve interpretational issues, reconcile conflicting views, advance functional implications, and encourage researchers to adopt connectivity analysis. As we conclude, we outline challenges for future research, emphasizing the broader applicability of our conclusions to other tissues exhibiting complex multicellular dynamics.

Published
2024

27. Gate-controlled suppression of light-driven proton transport through graphene electrodes

Author

Huang, S., Griffin, E., Cai, J., Xin, B., Tong, J., Fu, Y., Kravets, V., Peeters, F. M., and Lozada-Hidalgo, M.

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

Recent experiments demonstrated that proton transport through graphene electrodes can be accelerated by over an order of magnitude with low intensity illumination. Here we show that this photo-effect can be suppressed for a tuneable fraction of the infrared spectrum by applying a voltage bias. Using photocurrent measurements and Raman spectroscopy, we show that such fraction can be selected by tuning the Fermi energy of electrons in graphene with a bias, a phenomenon controlled by Pauli blocking of photo-excited electrons. These findings demonstrate a dependence between graphene's electronic and proton transport properties and provide fundamental insights into molecularly thin electrode-electrolyte interfaces and their interaction with light.

Published
2023
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28. Evaluation of techno-chemical properties of the bivalve mollusk Mya arenaria as fishery perspective object and aquaculture of the Kandalaksha Bay

Author

Shokina Yu. V., Kravets P. P., and Lutsyk P. V.

Subjects
General Works
Abstract

The paper presents characteristics of the techno-chemical properties of the bivalve mollusk Mya arenaria (edible part, overall chemical composition, composition of nitrogen compounds) widespread in the Kandalaksha Bay. The analysis of these properties of the bivalve allows consider the clam as a perspective object of fishing and aquaculture

Published
2015

29. Network approach reveals preferential T-cell and macrophage association with α-linked β-cells in early stage of insulitis in NOD mice

Author

Balasenthilkumaran, Nirmala V, Whitesell, Jennifer C, Pyle, Laura, Friedman, Rachel S, and Kravets, Vira

Subjects
Biomedical and Clinical Sciences, Immunology, Autoimmune Disease, Diabetes, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, alpha cells, diabetes, first responder beta cells, insulitis, network, network physiology
Abstract

One of the challenges in studying islet inflammation-insulitis-is that it is a transient phenomenon. Traditional reporting of the insulitis progression is based on cumulative, donor-averaged values of leucocyte density in the vicinity of pancreatic islets, that hinder intra- and inter-islet heterogeneity of disease progression. Here, we aimed to understand why insulitis is non-uniform, often with peri-insulitis lesions formed on one side of an islet. To achieve this, we demonstrated the applicability of network theory in detangling intra-islet multi-cellular interactions during insulitis. Specifically, we asked the question "What is unique about regions of the islet that interact with immune cells first". This study utilized the non-obese diabetic mouse model of type one diabetes and examined the interplay among α-, β-, T-cells, myeloid cells, and macrophages in pancreatic islets during the progression of insulitis. Disease evolution was tracked based on the T/β cell ratio in individual islets. In the early stage, we found that immune cells are preferentially interacting with α-cell-rich regions of an islet. At the islet periphery α-linked β-cells were found to be targeted significantly more compared to those without α-cell neighbors. Additionally, network analysis revealed increased T-myeloid, and T-macrophage interactions with all β-cells.

Published
2024

33. Non-polaritonic effects in cavity-modified photochemistry

Author

Thomas, Philip A., Tan, Wai Jue, Kravets, Vasyl G., Grigorenko, Alexander N., and Barnes, William L.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics, Physics - Optics
Abstract

Strong coupling of molecules to vacuum fields has been widely reported to lead to modified chemical properties such as reaction rates. However, some recent attempts to reproduce infrared strong coupling results have not been successful, suggesting that factors other than strong coupling may sometimes be involved. Here we re-examine the first of these vacuum-modified chemistry experiments in which changes to a molecular photoisomerisation process in the UV-vis spectral range were attributed to strong coupling of the molecules to visible light. We observed significant variations in photoisomerisation rates consistent with the original work; however, we found no evidence that these changes need to be attributed to strong coupling. Instead, we suggest that the photoisomerisation rates involved are most strongly influenced by the absorption of ultraviolet radiation in the cavity. Our results indicate that care must be taken to rule out non-polaritonic effects before invoking strong coupling to explain any changes of chemical properties arising in cavity-based experiments., Comment: 33 pages, 17 figures

Published
2023
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34. Packet Reception Probability: Packets That You Can't Decode Can Help Keep You Safe

Author

De, Subham, Vasisht, Deepak, Sundaram, Hari, and Kravets, Robin

Subjects
Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper provides a robust, scalable Bluetooth Low-Energy (BLE) based indoor localization solution using commodity hardware. While WiFi-based indoor localization has been widely studied, BLE has emerged a key technology for contact-tracing in the current pandemic. To accurately estimate distance using BLE on commercial devices, systems today rely on Receiver Signal Strength Indicator(RSSI) which suffers from sampling bias and multipath effects. We propose a new metric: Packet Reception Probability (PRP) that builds on a counter-intuitive idea that we can exploit packet loss to estimate distance. We localize using a Bayesian-PRP formulation that also incorporates an explicit model of the multipath. To make deployment easy, we do not require any hardware, firmware, or driver-level changes to off-the-shelf devices, and require minimal training. PRP can achieve meter level accuracy with just 6 devices with known locations and 12 training locations. We show that fusing PRP with RSSI is beneficial at short distances < 2m. Beyond 2m, fusion is worse than PRP, as RSSI becomes effectively de-correlated with distance. Robust location accuracy at all distances and ease of deployment with PRP can help enable wide range indoor localization solutions using BLE., Comment: 14 pages, 10 figures

Published
2023

35. Roadmap on computational methods in optical imaging and holography [invited]

Author

Rosen, Joseph, Alford, Simon, Allan, Blake, Anand, Vijayakumar, Arnon, Shlomi, Arockiaraj, Francis Gracy, Art, Jonathan, Bai, Bijie, Balasubramaniam, Ganesh M., Birnbaum, Tobias, Bisht, Nandan S., Blinder, David, Cao, Liangcai, Chen, Qian, Chen, Ziyang, Dubey, Vishesh, Egiazarian, Karen, Ercan, Mert, Forbes, Andrew, Gopakumar, G., Gao, Yunhui, Gigan, Sylvain, Gocłowski, Paweł, Gopinath, Shivasubramanian, Greenbaum, Alon, Horisaki, Ryoichi, Ierodiaconou, Daniel, Juodkazis, Saulius, Karmakar, Tanushree, Katkovnik, Vladimir, Khonina, Svetlana N., Kner, Peter, Kravets, Vladislav, Kumar, Ravi, Lai, Yingming, Li, Chen, Li, Jiaji, Li, Shaoheng, Li, Yuzhu, Liang, Jinyang, Manavalan, Gokul, Mandal, Aditya Chandra, Manisha, Manisha, Mann, Christopher, Marzejon, Marcin J., Moodley, Chané, Morikawa, Junko, Muniraj, Inbarasan, Narbutis, Donatas, Ng, Soon Hock, Nothlawala, Fazilah, Oh, Jeonghun, Ozcan, Aydogan, Park, YongKeun, Porfirev, Alexey P., Potcoava, Mariana, Prabhakar, Shashi, Pu, Jixiong, Rai, Mani Ratnam, Rogalski, Mikołaj, Ryu, Meguya, Choudhary, Sakshi, Salla, Gangi Reddy, Schelkens, Peter, Şener, Sarp Feykun, Shevkunov, Igor, Shimobaba, Tomoyoshi, Singh, Rakesh K., Singh, Ravindra P., Stern, Adrian, Sun, Jiasong, Zhou, Shun, Zuo, Chao, Zurawski, Zack, Tahara, Tatsuki, Tiwari, Vipin, Trusiak, Maciej, Vinu, R. V., Volotovskiy, Sergey G., Yılmaz, Hasan, De Aguiar, Hilton Barbosa, Ahluwalia, Balpreet S., and Ahmad, Azeem

Published
2024
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36. All-electrical operation of a Curie-switch at room temperature

Author

Iurchuk, Vadym, Kozlov, Oleksii, Sorokin, Serhii, Zhou, Shengqiang, Lindner, Jürgen, Reshetniak, Serhii, Kravets, Anatolii, Polishchuk, Dmytro, and Korenivski, Vladislav

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

We present all-electrical operation of a Fe$_x$Cr$_{1-x}$-based Curie switch at room temperature. More specifically, we study the current-induced thermally-driven transition from ferromagnetic to antiferromagnetic Ruderman-Kittel-Kasuya-Yosida (RKKY) indirect coupling in a Fe/Cr/Fe$_{17.5}$Cr$_{82.5}$/Cr/Fe multilayer. Magnetometry measurements at different temperatures show that the transition from the ferromagnetic to the antiferromagnetic coupling at zero field is observed at $\sim$325K. Analytical modelling confirms that the observed temperature-dependent transition from indirect ferromagnetic to indirect antiferromangetic interlayer exchange coupling originates from the modification of the effective interlayer exchange constant through the ferromagnetic-to-paramagnetic transition in the Fe$_{17.5}$Cr$_{82.5}$ spacer with minor contributions from the thermally-driven variations of the magnetization and magnetic anisotropy of the Fe layers. Room-temperature current-in-plane magnetotransport measurements on the patterned Fe/Cr/Fe$_{17.5}$Cr$_{82.5}$/Cr/Fe strips show the transition from the 'low-resistance' parallel to the 'high-resistance' antiparallel remanent magnetization configuration, upon increased probing current density. Quantitative comparison of the switching fields, obtained by magnetometry and magnetotransport, confirms that the Joule heating is the main mechanism responsible for the observed current-induced resistive switching., Comment: 8 pages, 4 figures

Published
2023

37. Antiferromagnet-mediated interlayer exchange: hybridization versus proximity effect

Author

Polishchuk, D. M., Tykhonenko-Polishchuk, Yu. O., Lytvynenko, Ya. M., Rostas, A. M., Kuncser, V., Kravets, A. F., Tovstolytkin, A. I., Gomonay, O. V., and Korenivski, V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the interlayer coupling between two thin ferromagnetic (F) films mediated by an antiferromagnetic (AF) spacer in F*/AF/F trilayers and show how it transitions between different regimes on changing the AF thickness. Employing layer-selective Kerr magnetometry and ferromagnetic-resonance techniques in a complementary manner enables us to distinguish between three functionally distinct regimes of such ferromagnetic interlayer coupling. The F layers are found to be individually and independently exchange-biased for thick FeMn spacers - the first regime of no interlayer F-F* coupling. F-F* coupling appears on decreasing the FeMn thickness below 9 nm. In this second regime found in structures with 6.0-9.0 nm thick FeMn spacers, the interlayer coupling exists only in a finite temperature interval just below the effective N\'eel temperature of the spacer, which is due to magnon-mediated exchange through the thermally softened antiferromagnetic spacer, vanishing at lower temperatures. The third regime, with FeMn thinner than 4 nm, is characterized by a much stronger interlayer coupling in the entire temperature interval, which is attributed to a magnetic-proximity induced ferromagnetic exchange. These experimental results, spanning the key geometrical parameters and thermal regimes of the F*/AF/F nanostructure, complemented by a comprehensive theoretical analysis, should broaden the understanding of the interlayer exchange in magnetic multilayers and potentially be useful for applications in spin-thermionics., Comment: 14 pages, 9 figures

Published
2023
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38. Highly ordered LIPSS on Au thin film for plasmonic sensing fabricated by double femtosecond pulses

Author

Fraggelakis, Fotis, Lingos, Panagiotis, Cusworth, Emma, Kravets, Vasyl G., Grigorenko, Alexander N., Kabashin, Andrei V., and Stratakis, Emmanuel

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

We report on the single-step fabrication of homogeneous and highly ordered Laser Induced Periodic Surface Structures (LIPSS) over large areas on Au nanolayers, that can be used for plasmonic sensing. A comprehensive study on LIPSS formation on 32 nm Au film upon double, 170 fs pulse irradiation, unveiled the key importance of interpulse delay as the determining factor behind the homogeneity of laser induced structures and confirmed that highly ordered, functional LIPSS occur solely upon double pulse irradiation. In particular, the impact of pulse overlap, fluence and interpulse delay reveals that homogeneous LIPSS formation is optimized within a specific interpulse delay range. At the same time, examination of nanoscale features of the structures points out a significant differentiation of the LIPSS formation characteristics between single and double pulse irradiation. Theoretical investigation complements experimental results providing insights on the structure formation mechanism. Ellipsometric measurements validate that such structures exhibit characteristic plasmon resonances that can be exploited for sensing applications. The presented data demonstrate a novel functionality of LIPSS, while providing strong evidence of the capabilities of femtosecond double pulse irradiation as a valuable and low-cost tool for the precise fabrication of highly ordered structures.

Published
2023

39. Spin-wave Resonance in Arrays of Nanoscale Synthetic-antiferromagnets

Author

Borynskyi, Vladyslav, Polishchuk, Dmytro, Sharai, Iryna, Melnyk, Andrii, Kravets, Anatolii, Tovstolytkin, Alexandr, and Korenivski, Vladislav

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

The study concerns dynamics of standing spin waves in arrays of sub-100 nm elliptic synthetic-antiferromagnet (SAF) nanodisks. We performed a detailed ferromagnetic resonance analysis in conjunction with micromagnetic modeling to find out several prominent traits of such systems. One broad line is shown to be the sole resonant response for a SAF of the considered sizes. We demonstrate that this mode is degenerated, and its excitation map resembles a superposition of in-center and edge-type oscillations. We also show how this hybrid excitation leads to almost twofold enhancement in the shape-induced anisotropy of the mode., Comment: 3 pages, 1 figure, submitted to 2022 IEEE 12th International Conference Nanomaterials: Applications & Properties (NAP)

Published
2023
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43. Active rejection-enhancement of spectrally adaptive liquid crystal geometric phase vortex coronagraphs

Author

Kravets, N., Mur, U., Ravnik, M., Zumer, S., and Brasselet, E.

Subjects
Physics - Optics
Abstract

Geometric phase optical elements made of space-variant anisotropic media customarily find their optimal operating conditions when the half-wave retardance condition is fulfilled, which allows imparting polarization-dependent changes to an incident wavefront. In practice, intrinsic limitations of man-made manufacturing process or the finite spectrum of the light source lead to a deviation from the ideal behavior. This implies the implementation of strategies to compensate for the associated efficiency losses. Here we report on how the intrinsic tunable features of self-engineered liquid crystal topological defects can be used to enhance the rejection capabilities of spectrally adaptive vector vortex coronagraphs. We also discuss the extent of which current models enable to design efficient devices.

Published
2022
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44. Proximity-Enhanced Magnetocaloric Effect in Ferromagnetic Trilayers

Author

Persson, Milton, Kulyk, Mykola, Kravets, Anatolii, and Korenivski, Vladislav

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The demagnetization and associated magnetocaloric effect in strong-weak-strong ferromagnetic trilayers, upon a reorientation of the strong ferromagnets from parallel to antiparallel magnetization, is simulated using atomistic spin dynamics. The simulations yield non-trivial spin distributions in the antiparallel state, which in turn allows entropy to be calculated directly. Empirical functional forms are obtained for the magnetization distribution in the spacer, differing significantly from some of the commonly used models. Finally, we find that the magnetocaloric effect in the system can be significantly improved by allowing the local exchange to vary through the spacer, which in practice can be implemented by spatially tailoring the spacer's magnetic dilution., Comment: 8 pages, 6 figures

Published
2022
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