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51. Silent Data Corruptions at Scale

Author

Dixit, Harish Dattatraya, Pendharkar, Sneha, Beadon, Matt, Mason, Chris, Chakravarthy, Tejasvi, Muthiah, Bharath, and Sankar, Sriram

Subjects
Computer Science - Hardware Architecture, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Silent Data Corruption (SDC) can have negative impact on large-scale infrastructure services. SDCs are not captured by error reporting mechanisms within a Central Processing Unit (CPU) and hence are not traceable at the hardware level. However, the data corruptions propagate across the stack and manifest as application-level problems. These types of errors can result in data loss and can require months of debug engineering time. In this paper, we describe common defect types observed in silicon manufacturing that leads to SDCs. We discuss a real-world example of silent data corruption within a datacenter application. We provide the debug flow followed to root-cause and triage faulty instructions within a CPU using a case study, as an illustration on how to debug this class of errors. We provide a high-level overview of the mitigations to reduce the risk of silent data corruptions within a large production fleet. In our large-scale infrastructure, we have run a vast library of silent error test scenarios across hundreds of thousands of machines in our fleet. This has resulted in hundreds of CPUs detected for these errors, showing that SDCs are a systemic issue across generations. We have monitored SDCs for a period longer than 18 months. Based on this experience, we determine that reducing silent data corruptions requires not only hardware resiliency and production detection mechanisms, but also robust fault-tolerant software architectures., Comment: 8 pages, 3 figures, 33 references

Published
2021

52. Large zero-bias peaks in InSb-Al hybrid semiconductor-superconductor nanowire devices

Author

Zhang, Hao, de Moor, Michiel W. A., Bommer, Jouri D. S., Xu, Di, Wang, Guanzhong, van Loo, Nick, Liu, Chun-Xiao, Gazibegovic, Sasa, Logan, John A., Car, Diana, Veld, Roy L. M. Op het, van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrøm, Chris J., Bakkers, Erik P. A. M., Sarma, S. Das, and Kouwenhoven, Leo P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report electron transport studies on InSb-Al hybrid semiconductor-superconductor nanowire devices. Tunnelling spectroscopy is used to measure the evolution of subgap states while varying magnetic field and voltages applied to various nearby gates. At magnetic fields between 0.7 and 0.9 T, the differential conductance contains large zero bias peaks (ZBPs) whose height reaches values on the order 2e2/h. We investigate these ZBPs for large ranges of gate voltages in different devices. We discuss possible interpretations in terms of disorder-induced subgap states, Andreev bound states and Majorana zero modes., Comment: This manuscript replaces "Quantized Majorana conductance" Nature 556, 74 (2018). Technical errors in Nature 556, 74 (2018) are corrected and the original claims now have a wider interpretation. A Retraction Note (in preparation) on Nature 556, 74 (2018) will include a detailed description of errors and the corrected data analyses

Published
2021

53. Pregnancy and Moyamoya

Author

Pendharkar, Arjun V., Awsare, Sohun S., Steinberg, Gary K., Gupta, Gaurav, editor, Rosen, Todd, editor, Al-Mufti, Fawaz, editor, Nanda, Anil, editor, Khandelwal, Priyank, editor, Roychowdhury, Sudipta, editor, Rallo, Michael S., editor, and Sreenivasan, Sanjeev, editor

Published
2023
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56. Machine learning for cognitive behavioral analysis: datasets, methods, paradigms, and research directions

Author

Priya Bhatt, Amanrose Sethi, Vaibhav Tasgaonkar, Jugal Shroff, Isha Pendharkar, Aditya Desai, Pratyush Sinha, Aditya Deshpande, Gargi Joshi, Anil Rahate, Priyanka Jain, Rahee Walambe, Ketan Kotecha, and N. K. Jain

Subjects
Cognitive behavior analysis, Multimodal AI, Multimodal data fusion, Affective computing, Brain-inspired AI, Deception detection, Computer applications to medicine. Medical informatics, R858-859.7, Computer software, QA76.75-76.765
Abstract

Abstract Human behaviour reflects cognitive abilities. Human cognition is fundamentally linked to the different experiences or characteristics of consciousness/emotions, such as joy, grief, anger, etc., which assists in effective communication with others. Detection and differentiation between thoughts, feelings, and behaviours are paramount in learning to control our emotions and respond more effectively in stressful circumstances. The ability to perceive, analyse, process, interpret, remember, and retrieve information while making judgments to respond correctly is referred to as Cognitive Behavior. After making a significant mark in emotion analysis, deception detection is one of the key areas to connect human behaviour, mainly in the forensic domain. Detection of lies, deception, malicious intent, abnormal behaviour, emotions, stress, etc., have significant roles in advanced stages of behavioral science. Artificial Intelligence and Machine learning (AI/ML) has helped a great deal in pattern recognition, data extraction and analysis, and interpretations. The goal of using AI and ML in behavioral sciences is to infer human behaviour, mainly for mental health or forensic investigations. The presented work provides an extensive review of the research on cognitive behaviour analysis. A parametric study is presented based on different physical characteristics, emotional behaviours, data collection sensing mechanisms, unimodal and multimodal datasets, modelling AI/ML methods, challenges, and future research directions.

Published
2023
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57. A survey examining the awareness and biases regarding voluntary blood donations among the general population of Noida through a questionnaire

Author

Neema Tiwari, Anshu Gupta Devra, and Devyani Pendharkar

Subjects
the awareness and biases regarding voluntary blood donations among the general population, Medicine
Abstract

INTRODUCTION Blood donation is an extremely important part of hospital work. One unit of blood donated can save a life hence hospitals lay stress on holding blood donation camps and encourage voluntary blood donation. Blood donation societies worldwide are encouraging 100% non-remunerated, voluntary blood donation to low-risk populations to fight the lack of blood components and prevent transfusion-transmitted diseases. The authors devised a survey with the intention of investigating awareness.

Published
2024

58. Transoral Robotic Surgery - An Inevitable Future of Oral and Maxillofacial Surgery

Author

Dr. Seema Shantilal Pendharkar

Subjects
Dentistry, RK1-715
Abstract

With the advancements in oral surgical procedures minimally invasive surgery has gained prime importance to avoid the drawbacks associated with conventional surgical procedures in the head and neck region. In 2005 robotic surgery was used in the management of head and neck tumors and various non neoplastic diseases. Transoral robotic surgery TORS demonstrated several advantages such as being minimally invasive reduced intraoperative blood loss decreased post operative hospital stay preservation of adjacent structures accurate dissection and decreased post operative tissue morbidity with improved patient compliance. The application of TORS is still in the experimental stage and requires more research to establish its wide spread use. Although its development is inevitable and proves to be a boon for the expanding future of oral and maxillofacial surgery the results seem to be promising. This review highlights the current application of roboticTORS procedure its benefits and limitations in the head and neck region.

Published
2024
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59. Full parity phase diagram of a proximitized nanowire island

Author

Shen, J., Winkler, G. W., Borsoi, F., Heedt, S., Levajac, V., Wang, J. Y., van Driel, D., Bouman, D., Gazibegovic, S., Veld, R. L. M. Op Het, Car, D., Logan, J. A., Pendharkar, M., Palmstrom, C. J., Bakkers, E. P. A. M., Kouwenhoven, L. P., and van Heck, B.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We measure the charge periodicity of Coulomb blockade conductance oscillations of a hybrid InSb-Al island as a function of gate voltage and parallel magnetic field. The periodicity changes from $2e$ to $1e$ at a gate-dependent value of the magnetic field, $B^*$, decreasing from a high to a low limit upon increasing the gate voltage. In the gate voltage region between the two limits, which our numerical simulations indicate to be the most promising for locating Majorana zero modes, we observe correlated oscillations of peak spacings and heights. For positive gate voltages, the $2e$-$1e$ transition with low $B^*$ is due to the presence of non-topological states whose energy quickly disperses below the charging energy due to the orbital effect of the magnetic field. Our measurements demonstrate the importance of a careful exploration of the entire available phase space of a proximitized nanowire as a prerequisite to define future topological qubits., Comment: 5 pages, 4 figures plus supplementary. v2: improved manuscript. v3: published version. Raw data and source code available at https://doi.org/10.4121/13333451.v4

Published
2020
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60. Central Sequences in Subhomogeneous Unital C*-algebras

Author

Hadwin, Don and Pendharkar, Hemant

Subjects
Mathematics - Operator Algebras
Abstract

Suppose A is a unital subhomogeneous C*-algebra. We show that every central sequence in A is hypercentral if and only if every pointwise limit of a sequence of irreducible representations is multiplicity free. We also show that every central sequence in A is trivial if and only if every pointwise limit of irreducible representations is irreducible. We also give a nice repesentation of the latter algebras.

Published
2020

63. Hypofractionated stereotactic body radiation therapy as monotherapy for intermediate-risk prostate cancer

Author

Ju Andrew W, Wang Hongkun, Oermann Eric K, Sherer Benjamin A, Uhm Sunghae, Chen Viola J, Pendharkar Arjun V, Hanscom Heather N, Kim Joy S, Lei Siyuan, Suy Simeng, Lynch John H, Dritschilo Anatoly, and Collins Sean P

Subjects
Stereotactic body radiotherapy, Prostate cancer, SBRT, CyberKnife, Intermediate-risk, Monotherapy, Hypofractionation, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Hypofractionated stereotactic body radiation therapy (SBRT) has been advanced as monotherapy for low-risk prostate cancer. We examined the dose distributions and early clinical outcomes using this modality for the treatment of intermediate-risk prostate cancer. Methods Forty-one sequential hormone-naïve intermediate-risk prostate cancer patients received 35–36.25 Gy of CyberKnife-delivered SBRT in 5 fractions. Radiation dose distributions were analyzed for coverage of potential microscopic ECE by measuring the distance from the prostatic capsule to the 33 Gy isodose line. PSA levels, toxicities, and quality of life (QOL) measures were assessed at baseline and follow-up. Results All patients completed treatment with a mean coverage by the 33 Gy isodose line extending >5 mm beyond the prostatic capsule in all directions except posteriorly. Clinical responses were documented by a mean PSA decrease from 7.67 ng/mL pretreatment to 0.64 ng/mL at the median follow-up of 21 months. Forty patients remain free from biochemical progression. No Grade 3 or 4 toxicities were observed. Mean EPIC urinary irritation/obstruction and bowel QOL scores exhibited a transient decline post-treatment with a subsequent return to baseline. No significant change in sexual QOL was observed. Conclusions In this intermediate-risk patient population, an adequate radiation dose was delivered to areas of expected microscopic ECE in the majority of patients. Although prospective studies are needed to confirm long-term tumor control and toxicity, the short-term PSA response, biochemical relapse-free survival rate, and QOL in this interim analysis are comparable to results reported for prostate brachytherapy or external beam radiotherapy. Trial registration The Georgetown Institutional Review Board has approved this retrospective study (IRB 2009–510).

Published
2013
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64. Gate-tunable superconducting diode effect in a three-terminal Josephson device

Author

Mohit Gupta, Gino V. Graziano, Mihir Pendharkar, Jason T. Dong, Connor P. Dempsey, Chris Palmstrøm, and Vlad S. Pribiag

Subjects
Science
Abstract

Abstract The phenomenon of non-reciprocal critical current in a Josephson device, termed the Josephson diode effect, has garnered much recent interest. Realization of the diode effect requires inversion symmetry breaking, typically obtained by spin-orbit interactions. Here we report observation of the Josephson diode effect in a three-terminal Josephson device based upon an InAs quantum well two-dimensional electron gas proximitized by an epitaxial aluminum superconducting layer. We demonstrate that the diode efficiency in our devices can be tuned by a small out-of-plane magnetic field or by electrostatic gating. We show that the Josephson diode effect in these devices is a consequence of the artificial realization of a current-phase relation that contains higher harmonics. We also show nonlinear DC intermodulation and simultaneous two-signal rectification, enabled by the multi-terminal nature of the devices. Furthermore, we show that the diode effect is an inherent property of multi-terminal Josephson devices, establishing an immediately scalable approach by which potential applications of the Josephson diode effect can be realized, agnostic to the underlying material platform. These Josephson devices may also serve as gate-tunable building blocks in designing topologically protected qubits.

Published
2023
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65. Aarey conservation: A multifaceted opportunity for climate mitigation in an urban setting

Author

Anand Pendharkar, Pranav Bhagwat, and Aradhya Sardesai

Subjects
biodiversity, carbon sequestration, climate change, mitigation, sdgs, Medicine
Abstract

Citizens of the world are bracing themselves to combat and mitigate cataclysmic climate crisis. Recurrent climate accidents are leaving behind millions of climate refugees, who flock to urban centers in search of safety and security. Overcrowded metropolitan cities are highly vulnerable due to their high human densities and absolute numbers of residents and migrants. A well-connected network of urban green zones (UGZs) provides multiple values that enable sustainable climate mitigation and adaptation. The metropolis of Mumbai, with over 24 million humans (Mumbaikars), is fortunate to also have a network of large UGZs and protected areas (PAs), viz. Sanjay Gandhi National Park, Aarey Milk Colony (AMC), Tungareshwar, Thane, Tansa, and Karnala Wildlife Sanctuaries, along with mangrove forests and public parks. However, most PAs restrict entry and climate mitigation actions. AMC, spread over 12.5 km2 provides a unique “mosaic” landscape, inhabited by indigenous communities (Warli and Mahadev Koli), locals, and migrants. The hills, farms, artificial meadows, and built-up complexes, with a good road network and proximity to Mumbai’s suburbs, provide numerous opportunities to achieve the 17 sustainable development goals set out by members of the United Nations Conference of the Parties. The path to achieve climate and resource stability, in the economic capital of the nation, is a precarious one and needs planning and engagement of all stakeholders. Long-term protection of AMC will provide socioeconomic equity as well as ecological and health security to current and future generations of Mumbaikars.

Published
2023
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68. Reprogramming the immunosuppressive tumor microenvironment results in successful clearance of tumors resistant to radiation therapy and anti-PD-1/PD-L1

Author

Debayan Mukherjee, Erminia Romano, Richard Walshaw, Leo A. H. Zeef, Antonia Banyard, Stephen J. Kitcatt, Eleanor J. Cheadle, Karoliina Tuomela, Swati Pendharkar, Aws Al-Deka, Beatrice Salerno, Sophie Raby, Ian G. Mills, Jamie Honeychurch, and Tim M. Illidge

Subjects
Radiotherapy, immunotherapy, Tregs, immune Checkpoints, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

ABSTRACTDespite breakthroughs in immune checkpoint inhibitors (ICI), the majority of tumors, including those poorly infiltrated by CD8+ T cells or heavily infiltrated by immunosuppressive immune effector cells, are unlikely to result in clinically meaningful tumor responses. Radiation therapy (RT) has been combined with ICI to potentially overcome this resistance and improve response rates but reported clinical trial results have thus far been disappointing. Novel approaches are required to overcome this resistance and reprogram the immunosuppressive tumor microenvironment (TME) and address this major unmet clinical need. Using diverse preclinical tumor models of prostate and bladder cancer, including an autochthonous prostate tumor (Pten−/−/trp53−/−) that respond poorly to radiation therapy (RT) and anti-PD-L1 combinations, the key drivers of this resistance within the TME were profiled and used to develop rationalized combination therapies that simultaneously enhance activation of anti-cancer T cell responses and reprogram the immunosuppressive TME. The addition of anti-CD40mAb to RT resulted in an increase in IFN-y signaling, activation of Th−1 pathways with an increased infiltration of CD8+ T-cells and regulatory T-cells with associated activation of the CTLA−4 signaling pathway in the TME. Anti-CTLA−4mAb in combination with RT further reprogrammed the immunosuppressive TME, resulting in durable, long-term tumor control. Our data provide novel insights into the underlying mechanisms of the immunosuppressive TME that result in resistance to RT and anti-PD−1 inhibitors and inform therapeutic approaches to reprogramming the immune contexture in the TME to potentially improve tumor responses and clinical outcomes.

Published
2023
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69. Tuning the band topology of GdSb by epitaxial strain

Author

Hadass S. Inbar, Dai Q. Ho, Shouvik Chatterjee, Aaron N. Engel, Shoaib Khalid, Connor P. Dempsey, Mihir Pendharkar, Yu Hao Chang, Shinichi Nishihaya, Alexei V. Fedorov, Donghui Lu, Makoto Hashimoto, Dan Read, Anderson Janotti, and Christopher J. Palmstrøm

Subjects
Biotechnology, TP248.13-248.65, Physics, QC1-999
Abstract

Rare-earth monopnictide (RE-V) semimetal crystals subjected to hydrostatic pressure have shown interesting trends in magnetoresistance, magnetic ordering, and superconductivity, with theory predicting pressure-induced band inversion. Yet, thus far, there have been no direct experimental reports of interchanged band order in RE-Vs due to strain. This work studies the evolution of band topology in biaxially strained GdSb(001) epitaxial films using angle-resolved photoemission spectroscopy (ARPES) and density functional theory (DFT). As biaxial strain is tuned from tensile to compressive strain, the gap between the hole and the electron bands dispersed along [001] decreases. The conduction and valence band shifts seen in DFT and ARPES measurements are explained by a tight-binding model that accounts for the orbital symmetry of each band. Finally, we discuss the effect of biaxial strain on carrier compensation and magnetic ordering temperature.

Published
2023
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70. Stromal cell inhibition of anti-CD20 antibody mediated killing of B-cell malignancies

Author

Ester Fagnano, Swati Pendharkar, Madyson Colton, Philip N. Jones, Marta Crespi Sallan, Tetyana Klymenko, Andrejs Braun, Christian Klein, Jamie Honeychurch, Eleanor J. Cheadle, and Timothy M. Illidge

Subjects
CD20, antibody, lymphoma, tumor microenvironment, stroma, Biology (General), QH301-705.5
Abstract

Introduction: The glycoengineered type II anti-CD20 monoclonal antibody obinutuzumab has been licensed for treatment in follicular non-Hodgkin lymphoma and B-CLL following clinical trials demonstrating superior outcomes to standard of care treatment. However, ultimately many patients still relapse, highlighting the need to understand the mechanisms behind treatment failure to improve patient care. Resistance to chemotherapy is often caused by the ability of malignant B-cells to migrate to the bone marrow and home into the stromal layer. Therefore, this study aimed to investigate whether stromal cells were also able to inhibit type II anti-CD20 antibody mechanisms of action, contributing to resistance to therapy.Methods: A stromal-tumor co-culture was established in vitro between Raji or Daudi B-cell tumor cells and M210B4 stromal cells in 24 well plates.Results: Contact with stromal cells was able to protect tumor cells from obinutuzumab mediated programmed cell death (PCD), antibody dependent cellular phagocytosis and antibody dependent cellular cytotoxicity. Furthermore, such protection required direct contact between stroma and tumor cells. Stromal cells appeared to interfere with obinutuzumab mediated B-cell homotypic adhesion through inhibiting and reversing actin remodelling, potentially as a result of stromal-tumor cell contact leading to downregulation of CD20 on the surface of tumor cells. Further evidence for the potential role of CD20 downregulation comes through the reduction in surface CD20 expression and inhibition of obinutuzumab mediated PCD when tumor cells are treated with Ibrutinib in the presence of stromal cells. The proteomic analysis of tumor cells after contact with stromal cells led to the identification of a number of altered pathways including those involved in cell adhesion and the actin cytoskeleton and remodeling.Discussion: This work demonstrates that contact between tumor cells and stromal cells leads to inhibition of Obinutuzumab effector functions and has important implications for future therapies to improve outcomes to anti-CD20 antibodies. A deeper understanding of how anti-CD20 antibodies interact with stromal cells could prove a useful tool to define better strategies to target the micro-environment and ultimately improve patient outcomes in B-cell malignancies.

Published
2023
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72. Parity-preserving and magnetic field resilient superconductivity in indium antimonide nanowires with tin shells

Author

Pendharkar, M., Zhang, B., Wu, H., Zarassi, A., Zhang, P., Dempsey, C. P., Lee, J. S., Harrington, S. D., Badawy, G., Gazibegovic, S., Jung, J., Chen, A. -H., Verheijen, M. A., Hocevar, M., Bakkers, E. P. A. M., Palmstrøm, C. J., and Frolov, S. M.

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

We study bottom-up grown semiconductor indium antimonide nanowires that are coated with shells of tin. The shells are uniform in thickness. The interface between Sn and InSb is abrupt and without interdiffusion. Devices for transport are prepared by in-situ shadowing of nanowires using nearby nanowires as well as flakes, resulting in etch-free junctions. Tin is found to induce a hard superconducting gap in the range 600-700 micro-eV. Superconductivity persists up to 4 T in magnetic field. A tin island exhibits the coveted two-electron charging effect, a hallmark of charge parity stability. The findings open avenues for superconducting and topological quantum circuits based on new superconductor-semiconductor combinations.

Published
2019

73. Surface Reconstructions of Heusler Compounds in the Ni-Ti-Sn (001) System

Author

Rice, Anthony D., Sharan, Abhishek, Wilson, Nathaniel S., Harrington, Sean D., Pendharkar, Mihir, Janotti, Anderson, and Palmstrøm, Chris J.

Subjects
Condensed Matter - Materials Science
Abstract

As progress is made on thin-film synthesis of Heusler compounds, a more complete understanding of the surface will be required to control their properties, especially as functional heterostructures are explored. Here, the surface reconstructions of semiconducting half-Heusler NiTiSn(001), and Ni1+xTiSn(001) (x=0.0-1.0) are explored as a way to optimize growth conditions during molecular beam epitaxy. Density functional theory (DFT) calculations were carried out to guide the interpretation of the experimental results. For NiTiSn(001) a c(2x2) surface reconstruction was observed for Sn rich samples, while a (1x1) unreconstructed surface was observed for Ti-rich samples. A narrow range around 1:1:1 stoichiometry exhibited a (2x1) surface reconstruction. Electrical transport is used to relate the observed reflection high energy electron diffraction (RHEED) pattern during and after growth with carrier concentration and stoichiometry. Scanning tunneling microscopy and RHEED were used to examine surface reconstructions, the results of which are in good agreement with density functional calculations. X-ray photoelectron spectroscopy was used to determine surface termination and stoichiometry. Atomic surface models are proposed, which suggest Sn-dimers form in reconstructed Ni1+xTiSn(001) half-Heusler surfaces (x<0.25) with a transition to Ni terminated surfaces for x > 0.25.

Published
2019

74. Mechanism for Embedded In-plane Self Assembled Nanowire Formation

Author

Wilson, Nathaniel S, Kraemer, Stephan, Pennachio, Daniel J., Callahan, Patrick, Pendharkar, Mihir, and Palmstrøm, Christopher J

Subjects
Condensed Matter - Materials Science
Abstract

We report a novel growth mechanism that produces in-plane [1-10] oriented ErSb nanowires formed during codeposition of Er0.3Ga0.7Sb via molecular beam epitaxy (MBE). Nanowires are characterized by in-situ scanning tunneling microscopy (STM), as well as ex-situ transmission electron microscopy (TEM) and electron channeling contrast imaging (ECCI). We show that complexes of macrosteps with step heights on the order of 7 nm form during nanowire growth. The macrosteps are shown to be part of the in-plane nanowire growth process and are directly responsible for the observed stratified distribution of in-plane nanowires. TEM indicates that initial growth results in out-of-plane nanowires transitioning to in-plane nanowires after a critical film thickness. A surface energy model is put forward that shows the critical thickness is due to minimization of the GaSb{110} surfaces formed during out-of-plane nanowire growth. Kinetics of the transition are discussed with respect to observed features in STM, along with the material parameters needed to achieve in-plane nanowire growth.

Published
2019
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75. End-to-end correlated subgap states in hybrid nanowires

Author

Anselmetti, G. L. R., Martinez, E. A., Ménard, G. C., Puglia, D., Malinowski, F. K., Lee, J. S., Choi, S., Pendharkar, M., Palmstrøm, C. J., Marcus, C. M., Casparis, L., and Higginbotham, A. P.

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

End-to-end correlated bound states are investigated in superconductor-semiconductor hybrid nanowires at zero magnetic field. Peaks in subgap conductance are independently identified from each wire end, and a cross-correlation function is computed that counts end-to-end coincidences, averaging over thousands of subgap features. Strong correlations in a short, $300~\mathrm{nm}$ device are reduced by a factor of four in a long, $900~\mathrm{nm}$ device. In addition, subgap conductance distributions are investigated, and correlations between the left and right distributions are identified based on their mutual information., Comment: 6+4 pages, 4+4 figures

Published
2019
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76. Transport Studies in a Gate-Tunable Three-Terminal Josephson Junction

Author

Graziano, Gino V., Lee, Joon Sue, Pendharkar, Mihir, Palmstrøm, Chris, and Pribiag, Vlad S.

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

Josephson junctions with three or more superconducting leads have been predicted to exhibit topological effects in the presence of few conducting modes within the interstitial normal material. Such behavior, of relevance for topologically-protected quantum bits, would lead to specific transport features measured between terminals, with topological phase transitions occurring as a function of phase and voltage bias. Although conventional, two-terminal Josephson junctions have been studied extensively, multi-terminal devices have received relatively little attention to date. Motivated in part by the possibility to ultimately observe topological phenomena in multi-terminal Josephson devices, as well as their potential for coupling gatemon qubits, here we describe the superconducting features of a top-gated mesoscopic three-terminal Josephson device. The device is based on an InAs two-dimensional electron gas (2DEG) proximitized by epitaxial aluminum. We map out the transport properties of the device as a function of bias currents, top gate voltage and magnetic field. We find a very good agreement between the zero-field experimental phase diagram and a resistively and capacitively shunted junction (RCSJ) computational model., Comment: 7 pages, 4 figures

Published
2019
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77. Conductance-matrix symmetries of a three-terminal hybrid device

Author

Ménard, G. C., Anselmetti, G. L. R., Martinez, E. A., Puglia, D., Malinowski, F. K., Lee, J. S., Choi, S., Pendharkar, M., Palmstrøm, C. J., Flensberg, K., Marcus, C. M., Casparis, L., and Higginbotham, A. P.

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

We present conductance-matrix measurements of a three-terminal superconductor-semiconductor hybrid device consisting of two normal leads and one superconducting lead. Using a symmetry decomposition of the conductance, we find that the antisymmetric components of pairs of local and nonlocal conductances match at energies below the superconducting gap, consistent with expectations based on a non-interacting scattering matrix approach. Further, the local charge character of Andreev bound states is extracted from the symmetry-decomposed conductance data and is found to be similar at both ends of the device and tunable with gate voltage. Finally, we measure the conductance matrix as a function of magnetic field and identify correlated splittings in low-energy features, demonstrating how conductance-matrix measurements can complement traditional tunneling-probe measurements in the search for Majorana zero modes., Comment: 6 + 2 pages, 4 + 2 figures

Published
2019
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81. Cytogenetics evaluation of 261 couples with first-trimester recurrent pregnancy loss: A prevalent case–control study

Author

Paresh Singhal, S K Raghavendra, Barun Kumar Chakrabarty, Ganesh Pendkur, Chinmay Shrikrishna Pendharkar, and Gurpreet Kaur Sagoo

Subjects
abortions, chromosomal abnormalities, karyotyping, recurrent pregnancy loss, Naval Science, Medicine
Abstract

Introduction: Recurrent pregnancy loss (RPL) is a common occurrence which affects approximately 15-20% of couples. Chromosomal abnormality is an important cause of recurrent abortions especially if either of the partner is a carrier of balanced translocation. The current study aimed to determine the prevalence of chromosomal abnormalities in couples suffering from first trimester RPL and compare with normal control. Materials and Methods: A prospective case-control study, in which 261 couples with history of two or more abortions were evaluated for various chromosomal abnormalities; and compared with 190 healthy couples with no history of abortion and at least one normal biological child. Peripheral blood T-lymphocytes were cultured using RPMI-1640 medium for obtaining metaphases and chromosomal analysis. SPSS software and Student's t test were used. p value < 0.05 was considered statistically significant. Results: Among 261 couples in RPL group, 240(91.95%) had normal karyotype, 17(6.51%) had major chromosomal abnormalities and 04(1.53%) had polymorphic variants. Most of the couples had two abortions (39.8%). Females were more commonly affected with M:F=0.214. Structural abnormalities (n=12,70.59%) were more frequent than numerical abnormalities (n=5,29.41%). There was no statistical correlation between age, number of abortions and major chromosomal abnormalities (p=0.06). Conclusion: Chromosomal aberrations in carrier parents, predispose them to RPL and can also be transmitted to the offspring which may results in imbalance in their genetic constitution, thus justifying the requirement of cytogenetic testing in these patients.

Published
2023
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84. First-in-Human Study to Evaluate Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics of a Rapidly Developed SARS-CoV-2 Therapeutic Antibody, AOD01, in Healthy Adults

Author

Prativadibhayankaram, Venkateshan S., Lee, Lawrence Soon-U, Lye, David, Xiaoying, Xu, Nellore, Ranjani, Pendharkar, Vishal, Hentze, Hannes, Guan, Siyu, Ayers, Benjamin J., Seah, Shirley G. K., Chye, De Hoe, Talib, Najwa S. N., Kaliaperumal, Nivashini, Ong, Wei Yee, Wong, Zi Xin, Au, Veonice B., Alok, Anshula, Connolly, John E., Boyd-Kirkup, Jerome D., Ingram, Piers J., Hanson, Brendon J., Ethirajulu, Kantharaj, O’Connell, Damian, and Chan, Conrad E. Z.

Published
2022
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89. Microfluidic paper-based device coupled with 3D printed imaging box for colorimetric detection in resource-limited settings

Author

Vijay Vaishampayan, Oinam Robita Chanu, Balasubramanian Sivasamy, Muthamilselvi Ponnuchamy, Varshini Karthik, Ambar Pendharkar, Lohith Srinivas Thotakura, Aryan Prabhu, Venkatesan Dhananjeyan, and Ashish Kapoor

Subjects
Paper-based devices, Imaging box, 3D Printing, Colorimetric detection, Sensor, Science (General), Q1-390
Abstract

Rapid and effective methods for the detection of analytes such as water contaminants, food adulterants and biomolecules are essential for the protection of public health and environmental protection. Most of the currently established analytical techniques need sophisticated equipment, centralized testing facilities, costly operations, and trained personnel. Such limitations make them inaccessible to the general populace, particularly in regions with limited resources. The emergence of microfluidic devices offers a promising alternative to overcome several such constraints. This work describes a protocol for fabricating a low-cost, open-source paper-based microfluidic device using easily available tools and materials for colorimetric detection of analytes. The ease and simplicity of fabrication allow users to design customized devices. The device is coupled with an imaging box assembled from 3D printed parts to maintain uniform lighting conditions during analytical testing. The platform allows digital imaging using smartphones or cameras to instantaneously capture images of reaction zones on the device for quantitative analysis. The system is demonstrated for detecting hexavalent chromium, a toxic water contaminant. The image analysis is performed using open-source ImageJ for quantification of results. The approach demonstrated in this work can be readily adopted for a wide range of sensing applications.

Published
2023
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90. Large second-order Josephson effect in planar superconductor-semiconductor junctions

Author

P. Zhang, A. Zarassi, L. Jarjat, V. Van de Sande, M. Pendharkar, J. S. Lee, C. P. Dempsey, A. P. McFadden, S. D. Harrington, J. T. Dong, H. Wu, A. -H. Chen, M. Hocevar, C. J. Palmstrøm, S. M. Frolov

Subjects
Physics, QC1-999
Abstract

We investigate the current-phase relations of Al/InAs-quantum well planar Josephson junctions fabricated using nanowire shadowing technique. Based on several experiments, we conclude that the junctions exhibit an unusually large second-order Josephson harmonic, the $\sin(2\varphi)$ term. First, superconducting quantum interference devices (dc-SQUIDs) show half-periodic oscillations, tunable by gate voltages as well as magnetic flux. Second, Josephson junction devices exhibit kinks near half-flux quantum in supercurrent diffraction patterns. Third, half-integer Shapiro steps are present in the junctions. Similar phenomena are observed in Sn/InAs quantum well devices. We perform data fitting to a numerical model with a two-component current phase relation. Analysis including a loop inductance suggests that the sign of the second harmonic term is negative. The microscopic origins of the observed effect remain to be understood. We consider alternative explanations which can account for some but not all of the evidence.

Published
2024
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91. Device Platform for Electrically Reconfigurable Dielectric Metasurfaces

Author

Iyer, Prasad P, Pendharkar, Mihir, Palmstrøm, Chris J., and Schuller, Jon A.

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Achieving an electrically tunable phased array optical antenna surface has been a principal challenge in the field of metasurfaces. In this letter, we demonstrate a device platform for achieving reconfigurable control over the resonant wavelength of a subwavelength optical antenna through free-carrier injection. We engineer and grow, using molecular beam epitaxy, a heterostructure of In1-xAlxAs/InAs/AlyGa1-ySb layers designed to achieve large amplitude and phase modulation of light by maximizing the refractive index change in regions of resonant field enhancement The p-i-n layers are grown on a heavily doped n-InAs layer which forms a reflecting substrate to confine the Mie resonances within the nanowires of the index tunable layers. We outline the fabrication process developed to form such tunable metasurface elements using a four-step projection lithography process and a self-aligned vertical dry etch. We experimentally demonstrate the operation of an electrically reconfigurable optical antenna element where the resonant wavelength blue shifts by 200nm only during carrier-injection. We extrapolate the experimentally measured InAs refractive index shifts to show we can achieve nearly {\pi} phase shift in a metasurface array. This solid-state device platform enables us to contact each resonant element independently to form a truly reconfigurable Fourier optical element with the promise of arbitrary control of the electromagnetic wavefront at the subwavelength scale.

Published
2018

92. Contribution of top barrier materials to high mobility in near-surface InAs quantum wells grown on GaSb(001)

Author

Lee, Joon Sue, Shojaei, Borzoyeh, Pendharkar, Mihir, Feldman, Mayer, Mukherjee, Kunal, and Palmstrøm, Chris J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Near-surface InAs two-dimensional electron gas (2DEG) systems have great potential for realizing networks of multiple Majorana zero modes towards a scalable topological quantum computer. Improving mobility in the near-surface 2DEGs is beneficial for stable topological superconducting states as well as for correlation of multiple Majorana zero modes in a complex network. Here, we investigate near-surface InAs 2DEGs (13 nm away from the surface) grown on GaSb(001) substrates, whose lattice constant is closely matched to InAs, by molecular beam epitaxy. The effect of 10-nm-thick top barrier to the mobility is studied by comparing Al$_{0.9}$Ga$_{0.1}$Sb and In$_{0.75}$Ga$_{0.25}$As as a top barrier on otherwise identical InAs quantum wells grown with identical bottom barrier and buffer layers. A 3-nm-thick capping layer on Al$_{0.9}$Ga$_{0.1}$Sb top barrier also affects the 2DEG electronic transport properties by modifying scattering from 2D remote ionized impurities at the surface. The highest transport mobility of 650,000 cm$^2$/Vs with an electron density of 3.81 $\times$ 10$^{11}$ cm$^{-2}$ was observed in an InAs 2DEG with an Al$_{0.9}$Ga$_{0.1}$Sb top barrier and an In$_{0.75}$Ga$_{0.25}$As capping layer. Analysis of Shubnikov-de Haas oscillations in the high mobility sample suggests that long-range scattering, such as remote ionized impurity scattering, is the dominant scattering mechanism in the InAs 2DEGs grown on GaSb(001) substrates. In comparison to InAs quantum wells grown on lattice-mismatched InP, the ones grown on GaSb show smoother surface morphology and higher quantum mobility. However, In$_{0.75}$Ga$_{0.25}$As top barrier in InAs quantum well grown on GaSb limits the transport mobility by charged dislocations formed in it, in addition to the major contribution to scattering from the alloy scattering.

Published
2018
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93. Selective-area chemical beam epitaxy of in-plane InAs one-dimensional channels grown on InP(001), InP(111)B, and InP(110) surfaces

Author

Lee, Joon Sue, Choi, Sukgeun, Pendharkar, Mihir, Pennachio, Dan J., Markman, Brian, Seas, Micheal, Koelling, Sebastian, Verheijen, Marcel A., Casparis, Lucas, Petersson, Karl D., Petkovic, Ivana, Schaller, Vanessa, Rodwell, Mark J. W., Marcus, Charles M., Krogstrup, Peter, Kouwenhoven, Leo P., Bakkers, Erik P. A. M., and Palmstrøm, Chris J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on the selective-area chemical beam epitaxial growth of InAs in-plane, one-dimensional (1-D) channels using patterned SiO$_{2}$-coated InP(001), InP(111)B, and InP(110) substrates to establish a scalable platform for topological superconductor networks. Top-view scanning electron micrographs show excellent surface selectivity and dependence of major facet planes on the substrate orientations and ridge directions, and the ratios of the surface energies of the major facet planes were estimated. Detailed structural properties and defects in the InAs nanowires (NWs) were characterized by transmission electron microscopic analysis of cross-sections perpendicular to the NW ridge direction and along the NW ridge direction. Electrical transport properties of the InAs NWs were investigated using Hall bars, a field effect mobility device, a quantum dot, and an Aharonov-Bohm loop device, which reflect the strong spin-orbit interaction and phase-coherent transport characteristic in the selectively grown InAs systems. This study demonstrates that selective-area chemical beam epitaxy is a scalable approach to realize semiconductor 1-D channel networks with the excellent surface selectivity and this material system is suitable for quantum transport studies.

Published
2018
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94. Electric field tunable superconductor-semiconductor coupling in Majorana nanowires

Author

de Moor, Michiel W. A., Bommer, Jouri D. S., Xu, Di, Winkler, Georg W., Antipov, Andrey E., Bargerbos, Arno, Wang, Guanzhong, van Loo, Nick, Veld, Roy L. M. Op het, Gazibegovic, Sasa, Car, Diana, Logan, John A., Pendharkar, Mihir, Lee, Joon Sue, Bakkers, Erik P. A. M., Palmstrøm, Chris J., Lutchyn, Roman M., Kouwenhoven, Leo P., and Zhang, Hao

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the effect of external electric fields on superconductor-semiconductor coupling by measuring the electron transport in InSb semiconductor nanowires coupled to an epitaxially grown Al superconductor. We find that the gate voltage induced electric fields can greatly modify the coupling strength, which has consequences for the proximity induced superconducting gap, effective g-factor, and spin-orbit coupling, which all play a key role in understanding Majorana physics. We further show that level repulsion due to spin-orbit coupling in a finite size system can lead to seemingly stable zero bias conductance peaks, which mimic the behavior of Majorana zero modes. Our results improve the understanding of realistic Majorana nanowire systems., Comment: 10 pages, 5 figures, supplemental information as ancillary file

Published
2018
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95. Mirage Andreev spectra generated by mesoscopic leads in nanowire quantum dots

Author

Su, Z., Zarassi, A., Hsu, J. -F., San-Jose, P., Prada, E., Aguado, R., Lee, E. J. H., Gazibegovic, S., Veld, R. Op het, Car, D., Plissard, S. R., Hocevar, M., Pendharkar, M., Lee, J. S., Logan, J. A., Palmstrom, C. J., Bakkers, E. P. A. M., and Frolov, S. M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study transport mediated by Andreev bound states formed in InSb nanowire quantum dots. Two kinds of superconducting source and drain contacts are used: epitaxial Al/InSb devices exhibit a doubling of tunneling resonances, while in NbTiN/InSb devices Andreev spectra of the dot appear to be replicated multiple times at increasing source-drain bias voltages. In both devices, a mirage of a crowded spectrum is created. To describe the observations a model is developed that combines the effects of a soft induced gap and of additional Andreev bound states both in the quantum dot and in the finite regions of the nanowire adjacent to the quantum dot. Understanding of Andreev spectroscopy is important for the correct interpretation of Majorana experiments done on the same structures.

Published
2018
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96. Parity transitions in the superconducting ground state of hybrid InSb-Al Coulomb islands

Author

Shen, Jie, Heedt, Sebastian, Borsoi, Francesco, Van Heck, Bernard, Gazibegovic, Sasa, Veld, Roy L. M. Op het, Car, Diana, Logan, John A., Pendharkar, Mihir, Ramakers, Senja J. J., Wang, Guanzhong, Xu, Di, Bouman, Daniel, Geresdi, Attila, Palmstrom, Chris J., Bakkers, Erik P. A. M., and Kouwenhoven, Leo P.

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

The number of electrons in small metallic or semiconducting islands is quantized. When tunnelling is enabled via opaque barriers this number can change by an integer. In superconductors the addition is in units of two electron charges (2e), reflecting that the Cooper pair condensate must have an even parity. This ground state (GS) is foundational for all superconducting qubit devices. Here, we study a hybrid superconducting-semiconducting island and find three typical GS evolutions in a parallel magnetic field: a robust 2e-periodic even-parity GS, a transition to a 2e-periodic odd-parity GS,and a transition from a 2e- to a 1e-periodic GS. The 2e-periodic odd-parity GS persistent in gate-voltage occurs when a spin-resolved subgap state crosses zero energy. For our 1e-periodic GSs we explicitly show the origin being a single zero-energy state gapped from the continuum, i.e. compatible with an Andreev bound states stabilized at zero energy or the presence of Majorana zero modes.

Published
2018
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98. Primary intraosseous squamous cell carcinoma presenting as lytic lesion in mandible: Common presentation of an uncommon illness

Author

Chinmay Pendharkar, Ritu Mehta, Barun Kumar Chakrabarty, and Arijit Sen

Subjects
intraosseous, lower jaw, primary, squamous cell carcinoma, Naval Science, Medicine
Abstract

Squamous cell carcinomas (SCCs) occurring in the bones are largely metastatic in nature and primary intraosseous squamous cell carcinomas (PIOSCCs) are extremely rare. They tend to involve skull bones more frequently than the other bones. We present the case of a 52-year-old male, presenting with pain in the lower jaw, which was diagnosed with PIOSCC on histopathology.

Published
2023
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100. Frequency and risk factors for liver disease following pancreatitis: A population-based cohort study

Author

Chand, Shayal K, Pendharkar, Sayali A, Bharmal, Sakina H, Bartlett, Adam S, Pandol, Stephen J, and Petrov, Maxim S

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Digestive Diseases, Cancer, Clinical Research, Oral and gastrointestinal, Acute Disease, Aged, Disease Progression, Female, Humans, Incidence, Liver Cirrhosis, Liver Diseases, Logistic Models, Male, Middle Aged, Multivariate Analysis, New Zealand, Pancreatitis, Chronic, Population, Recurrence, Retrospective Studies, Risk Factors, Acute pancreatitis, Chronic pancreatitis, Cirrhosis, Liver disease, Population-based study, Gastroenterology & Hepatology, Clinical sciences
Abstract

Background & aimsBoth liver disease (LD) and pancreatitis pose substantial burdens. There have been no general population-based studies on frequency of LD after an episode of pancreatitis. The aim of this study was to investigate the occurrence of LD in a population-based cohort of patients following pancreatitis.MethodsNationwide data on the general population of nearly 3 million people were used to identify retrospectively diagnoses of acute pancreatitis, chronic pancreatitis (CP), LD and cirrhosis from 1998 to 2016. Acute pancreatitis was categorised as first (FAP) or recurrent (RAP) episode. Number of pancreatitis recurrences prior to LD diagnosis was determined.ResultsA total of 20,931 pancreatitis patients were included, of which 874 developed LD following pancreatitis. The incidence of LD in FAP was 115.59 (95% confidence interval 102.19-128.98), in RAP - 217.63 (95% confidence interval 173.31-261.94), and in CP - 539.43 (95% confidence interval 494.72-584.13) patients per 100,000 pancreatitis patients per year. There was a significant increase in the probability of LD with increasing number of pancreatitis recurrences and, for the same number of pancreatitis recurrences, LD was significantly more frequent after CP than RAP (hazard ratio 1.666 (95% confidence interval 1.322-2.098; p =

Published
2019

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