Your search keyword '"Ghosh, Arindam"' showing total 48 results

1. Bi-objective optimization model with economic and environmental consideration for an integrated supply chain with random demand and flexible production rate.

Author

Ghosh, Arindam and Mahapatra, Maheswar Singha

Abstract

An integrated production–inventory model that simultaneously considers economic and environmental dimensions is developed in this paper. In the area of supply chain management, researchers and practioners often minimize the cost or profit, keeping the environmental aspect as a constraint. Only a few papers have taken up multi-objective optimization to offer better decision-making. The order quantity, re-order level, production rate, shipment number and vehicle velocity are optimized to minimize the total expected cost and the emissions simultaneously under random demand and in the presence of backorder and loss of sales. A Pareto front is developed to present the trade-off between expected cost and emission. The solution of the multi-objective model is obtained through a benchmark and widely used multi-objective algorithm NSGA-II. The key insights and outcomes are presented through numerical illustration and sensitivity analysis of important parameters. It has been observed that with increasing velocity total expected cost decreases. The total expected emission also decreases initially and increases after a threshold limit. Production rate takes few distinct values while offering the trade-off between expected cost and emission. [ABSTRACT FROM AUTHOR]

Published

2024

2. Metabolomic responses of tea [Camellia sinensis (L.) O. Kuntze] leaves to red spider mite [Oligonychus coffeae (Nietner)] and tea mosquito bug [Helopeltis theivora Waterhouse] infestation: a GC–MS-based study.

Author

Sharma, Gopal, Majumder, Soumya, Ghosh, Arindam, and Bhattacharya, Malay

Subjects

TEA, SPIDER mites, ROOIBOS tea, PLANT defenses, METABOLOMICS, FATTY acid derivatives, PLANT metabolites

Abstract

Background: The tea plant, Camellia sinensis (L.) O. Kuntze, is an evergreen leafy plant whose tender leaves are used in the manufacturing of the world's second most consumed beverage—tea. The production and consumption of tea worldwide have continually increased over the decades. All parts of the plant—leaf, stem, root, flower and seed, are fed upon by insect pests. This study elucidates the metabolomic changes occurring in tea leaves in response to infestation by two major pests in tea gardens: red spider mites and tea mosquito bugs. These pests significantly impact both the quantity and quality of tea production. The secondary metabolites produced by the tea due to pest attack has been analysed using GC–MS analysis in the laboratory. Results: Mostly fatty acid derivatives were biosynthesized as secondary metabolites due to pest attack as revealed from the result. In both infestations, methyl stearate was found to be produced along with increased chromatographic peaks of compounds such as caffeine, methyl palmitate, methyl linoleate, and stigmasta-7,25-dien-3-ol. In comparison with respective control samples (leaf with no pest attack), the one attacked by red spider mite showed eighteen exclusive metabolites, whereas tea mosquito bug infested leaf showed six such exclusive metabolites. Conclusions: Some metabolites were found to be either increased or decreased in their amount in both the samples. The increased compounds were reported with insecticidal and pesticidal properties with respect to respective controls. Some metabolites were markers of pest attacks i.e. plant defense mechanism induced phytochemicals according to the literature as discussed in this research. [ABSTRACT FROM AUTHOR]

Published

2024

3. Role and Interrelationship Between Myeloid-Derived Suppressor Cells and CD4+ T Cells in Different Types of Infections: A Review.

Author

Basak, Sarthak, Ghosh, Arindam, Biswas, Anirban, Bhattacharya, Debosmita, Thakur, Priti, Roy, Sumana, Mukherjee, Saikat, Ghosh, Pronabesh, Ghosh, Soubhik, and Bhattacharyya, Arindam

Abstract

Myeloid-Derived Suppressor Cells (MDSCs), also known as 'Natural Suppressor Cells (NSCs)', 'Immature Myeloid Cells, (IMCs), or 'Myeloid Suppressor Cells' (MSCs), are renowned for suppressing the immune functioning of T lymphocytes. Depending on the structural similarity with neutrophils and monocytes, MDSCs can be classified as polymorphonuclear MDSCs (PMN-MDSCs) and monocytic MDSCs (M-MDSCs). On the other hand, T cells, generally subdivided into CD4+ and CD8+ groups based on the surface glycoprotein, are crucial for generating an adaptive immune response. During the event of an infection, MDSCs and T cells, along with other immune regulatory cells, interplay and generate a robust host immune response against the invading pathogens. In this review, we have highlighted the role of MDSCs and different subsets of CD4+ T cells, such as Th1, Th2, Th17, Th9, Th22, Treg, Tfh, and Tr1 with and various transcription factors associated with them, in different well known bacterial, viral, parasitic and fungal diseases. Changes in the MDSC population were found to be associated with either promotion or suppression of T cell subsets in different infections. The relative frequency and absolute numbers of MDSCs in the peripheral blood, therefore, may serve as an important marker useful in future immunotherapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

4. UltraSense: A non-intrusive approach for human activity identification using heterogeneous ultrasonic sensor grid for smart home environment.

Author

Ghosh, Arindam, Chakraborty, Amartya, Chakraborty, Dhruv, Saha, Mousumi, and Saha, Sujoy

Abstract

Recognizing human activities non-intrusively has prevailed as a challenging and active area of research. In real life, it is a major requirement for human-centric applications like assisted living for elderly care, health-care and creating a smart home environment etc. Considering that people spend more than 90% (Klepeis et al. in J Exposure Sci Environ Epidemiol 11(3):231, 2001) of their time indoors, a proper indoor activity monitoring system will be helpful to monitor the abnormal behavior of the occupants. Existing approaches have implemented intrusive or invasive methods such as a camera or wearable devices. In this work, we present a non-invasive, non-intrusive sensing technique using an array of heterogeneous ultrasonic sensors for human activity monitoring. The ultrasonic sensors are placed in two separate deployments as sensor grids and in different positions of the door-frame. The proposed system senses a stream of events as the occupants perform different activities categorized as primary, postural and group activities. The primary activities considered are sitting, standing and fall. The postural activities are intermediate transitional states in the primary activities. These activities when performed in groups, are considered as a group activity. Other than activities it can identify different indoor movements, count room occupancy and identify occupants. Based on the collected data, the results show that the proposed system achieves an accuracy of more than 90% for detection of different activities and shows improvement over existing works. The final outcome of this work can be seen as developing the current prototype into smart ceiling panels that can be easily used in the indoor environment for human activity monitoring. [ABSTRACT FROM AUTHOR]

Published

2023

5. Adoption of blockchain technology in supply chain operations: a comprehensive literature study analysis.

Author

Chakraborty, Kaustov, Ghosh, Arindam, and Pratap, Saurabh

Abstract

The concept of blockchain technology, which has been around for over a decade, is gaining traction in academics and the commercial world. Blockchain technology, first created for virtual currency use, has recently found wider applications. Traditional blockchain applications in supply chain management focus on increasing safety, visibility, and auditability. A new movement is underway in which organizations are incorporating blockchain technology into their supply networks to reduce the environmental impact. In recent years, there has been an increase in the number of scholarly studies examining the many applications of blockchain technology in the field of supply chain management. A comprehensive evaluation of blockchain applications in the supply chain domain, on the other hand, presents the current state of the art of blockchain in supply chain management. Thus, we use a systematic literature review based on bibliometric analysis to review 477 research articles published in peer-reviewed scientific journals between 2017 and July 2022. This paper sheds light on the latest research trends in the field and guides readers through the many choices that must be made regarding blockchain implementation at various aspects of the supply chain by analyzing the most important and highly cited papers, authors' collaboration networks, keywords, countries, and institutions. Our analysis reveals six different themes related to supply chain traceability, resilience and collaboration, blockchain adoption challenges, supply chain performance, supply chain agility and adaptability, sustainability and carbon auditing, and supply chain finance. Our findings broaden the discussion by taking an integrated approach that embraces blockchain from different angles. Future research paths were pinpointed by systematically mapping and analyzing existing research trends, major research subjects, the evolution of publications over time, patterns of author and country collaboration, keyword co-occurrence, and more. [ABSTRACT FROM AUTHOR]

Published

2023

6. Materials research will be central to India's technology missions, but a culture shift is needed.

Author

Ghosh, Arindam and Sood, A. K.

Published

2024

7. Spin-orbit coupling-enhanced valley ordering of malleable bands in twisted bilayer graphene on WSe2.

Author

Bhowmik, Saisab, Ghawri, Bhaskar, Park, Youngju, Lee, Dongkyu, Datta, Suvronil, Soni, Radhika, Watanabe, K., Taniguchi, T., Ghosh, Arindam, Jung, Jeil, and Chandni, U.

Subjects

ANOMALOUS Hall effect, GRAPHENE, CARRIER density, FINITE fields, FERMI surfaces

Abstract

Recent experiments in magic-angle twisted bilayer graphene have revealed a wealth of novel electronic phases as a result of interaction-driven spin-valley flavour polarisation. In this work, we investigate correlated phases due to the combined effect of spin-orbit coupling-enhanced valley polarisation and the large density of states below half filling of the moiré band in twisted bilayer graphene coupled to tungsten diselenide. We observe an anomalous Hall effect, accompanied by a series of Lifshitz transitions that are highly tunable with carrier density and magnetic field. The magnetisation shows an abrupt change of sign near half-filling, confirming its orbital nature. While the Hall resistance is not quantised at zero magnetic fields—indicating a ground state with partial valley polarisation—perfect quantisation and complete valley polarisation are observed at finite fields. Our results illustrate that singularities in the flat bands in the presence of spin-orbit coupling can stabilise ordered phases even at non-integer moiré band fillings. Twisted bilayer graphene hosts a zoo of rich correlated electronic phases. Here, the authors explore the phase diagram of a twisted bilayer graphene/tungsten diselenide heterostructure and uncover a series of delicate Fermi surface reconstructions and signatures of orbital magnetism. [ABSTRACT FROM AUTHOR]

Published

2023

8. Transcriptome analysis of mulberry (Morus alba L.) leaves to identify differentially expressed genes associated with post-harvest shelf-life elongation.

Author

Das, Dipayan, Bhattacharyya, Subires, Bhattacharyya, Monidipa, Sashankar, Puja, Ghosh, Arindam, and Mandal, Palash

Subjects

WHITE mulberry, MULBERRY, TRANSCRIPTOMES, GENES, RNA sequencing, PROTEIN-protein interactions

Abstract

Present study deals with molecular expression patterns responsible for post-harvest shelf-life extension of mulberry leaves. Quantitative profiling showed retention of primary metabolite and accumulation of stress markers in NS7 and CO7 respectively. The leaf mRNA profiles was sequenced using the Illumina platform to identify DEGs. A total of 3413 DEGs were identified between the treatments. Annotation with Arabidopsis database has identified 1022 DEGs unigenes. STRING generated protein–protein interaction, identified 1013 DEGs nodes with p < 1.0e−16. KEGG classifier has identified genes and their participating biological processes. MCODE and BiNGO detected sub-networking and ontological enrichment, respectively at p ≤ 0.05. Genes associated with chloroplast architecture, photosynthesis, detoxifying ROS and RCS, and innate-immune response were significantly up-regulated, responsible for extending shelf-life in NS7. Loss of storage sucrose, enhanced activity of senescence-related hormones, accumulation of xenobiotics, and development of osmotic stress inside tissue system was the probable reason for tissue deterioration in CO7. qPCR validation of DEGs was in good agreement with RNA sequencing results, indicating the reliability of the sequencing platform. Present outcome provides a molecular insight regarding involvement of genes in self-life extension, which might help the sericulture industry to overcome their pre-existing problems related to landless farmers and larval feeding during monsoon. [ABSTRACT FROM AUTHOR]

Published

2022

9. A feasibility study to assess Mediterranean Diet adherence using an AI-powered system.

Author

Papathanail, Ioannis, Vasiloglou, Maria F., Stathopoulou, Thomai, Ghosh, Arindam, Baumann, Manuel, Faeh, David, and Mougiakakou, Stavroula

Subjects

MEDITERRANEAN diet, FEASIBILITY studies, IMAGE recognition (Computer vision), MOBILE apps, NON-communicable diseases

Abstract

Mediterranean diet (MD) can play a major role in decreasing the risks of non-communicable diseases and preventing overweight and obesity. In order for a person to follow the MD and assess their adherence to it, proper dietary assessment methods are required. We have developed an Artificial Intelligence-powered system that recognizes the food and drink items from a single meal photo and estimates their respective serving size, and integrated it into a smartphone application that automatically calculates MD adherence score and outputs a weekly feedback report. We compared the MD adherence score of four users as calculated by the system versus an expert dietitian, and the mean difference was 3.5% and statistically not significant. Afterwards, we conducted a feasibility study with 24 participants, to evaluate the system's performance and to gather the users' and dietitians' feedback. The image recognition system achieved 61.8% mean Average Precision for the testing set and 57.3% for the feasibility study images (where the ground truth was taken as the participants' annotations). The feedback from the participants of the feasibility study was also very positive. [ABSTRACT FROM AUTHOR]

Published

2022

10. HumanSense: a framework for collective human activity identification using heterogeneous sensor grid in multi-inhabitant smart environments.

Author

Ghosh, Arindam, Chakraborty, Amartya, Kumbhakar, Joydeep, Saha, Mousumi, and Saha, Sujoy

Subjects

*HUMAN activity recognition, *CONGREGATE housing, *SOCIAL groups, *WEARABLE cameras, *PHYSICAL activity, *SMART homes

Abstract

Identification of human activity considering social interactions and group dynamics non-intrusively has been one of the fundamental problems and a challenging area of research. In real life, it is required for designing human-centric applications like assisted living, health care, and creating a smart home environment. As human beings spend 90% of time indoors, such a system will be helpful to monitor the behavioral anomalies of the inhabitants. Existing approaches have used intrusive or invasive methods like camera or wearable devices. In this work, we present a device-free, non-invasive, and non-intrusive sensing framework called HumanSense using an array of heterogeneous sensor grid for human activity monitoring. The sensor grids, comprising the ultrasonic and sound sensors, have been deployed for collective sensing combining a person's physical activity and verbal interaction information. The proposed system senses a stream of events when the occupant(s) perform different physical activities categorized as atomic and group activities like sitting, standing, and walking. Simultaneously, it also tracks person-person verbal interactions such as monologue and discussion. Both information are then integrated into a single framework to understand the overall behavioral scenario of the indoor environment. The experimental results have shown that HumanSense can detect different activities with accuracy more than 90% and also improves overall identification accuracy compared to existing works. Our developed system can be further evolved into ready-to-deploy smart sensing panels which can be effective for human activity monitoring in an indoor environment. [ABSTRACT FROM AUTHOR]

Published

2022

11. Breakdown of semiclassical description of thermoelectricity in near-magic angle twisted bilayer graphene.

Author

Ghawri, Bhaskar, Mahapatra, Phanibhusan S., Garg, Manjari, Mandal, Shinjan, Bhowmik, Saisab, Jayaraman, Aditya, Soni, Radhika, Watanabe, Kenji, Taniguchi, Takashi, Krishnamurthy, H. R., Jain, Manish, Banerjee, Sumilan, Chandni, U., and Ghosh, Arindam

Subjects

GRAPHENE, THERMOELECTRIC power, ELECTRICAL resistivity, THERMOELECTRICITY, SYMMETRY breaking, MAGIC angle spinning, LOW temperatures

Abstract

The planar assembly of twisted bilayer graphene (tBLG) hosts multitude of interaction-driven phases when the relative rotation is close to the magic angle (θm = 1.1∘). This includes correlation-induced ground states that reveal spontaneous symmetry breaking at low temperature, as well as possibility of non-Fermi liquid (NFL) excitations. However, experimentally, manifestation of NFL effects in transport properties of twisted bilayer graphene remains ambiguous. Here we report simultaneous measurements of electrical resistivity (ρ) and thermoelectric power (S) in tBLG for several twist angles between θ ~ 1.0 − 1.7∘. We observe an emergent violation of the semiclassical Mott relation in the form of excess S close to half-filling for θ ~ 1.6∘ that vanishes for θ ≳ 2∘. The excess S (≈2 μV/K at low temperatures T ~ 10 K at θ ≈ 1.6∘) persists upto ≈40 K, and is accompanied by metallic T-linear ρ with transport scattering rate (τ−1) of near-Planckian magnitude τ−1 ~ kBT/ℏ. Closer to θm, the excess S was also observed for fractional band filling (ν ≈ 0.5). The combination of non-trivial electrical transport and violation of Mott relation provides compelling evidence of NFL physics intrinsic to tBLG. Experiments on twisted bilayer graphene point to various interaction-induced phases, including the non-Fermi liquid, but its unambiguous assignment remains challenging. Here, using simultaneous transport and thermoelectric power measurements, the authors identify non-Fermi liquid signatures at low twist angle. [ABSTRACT FROM AUTHOR]

Published

2022

12. Editorial.

Author

Singh, Rajendra, Saha Dasgupta, Tanusri, Ghosh, Arindam, Mahajan, Avinash, and Ganguli, A K

Published

2022

13. Anomalous electrical transport in orientationally controlled trinary hybrids of graphene and twisted bilayer molybdenum disulphide.

Author

Sett, Shaili, Kundu, Sudipta, Kakkar, Saloni, Gill, Navkiranjot Kaur, Jain, Manish, and Ghosh, Arindam

Abstract

Moiré superlattices of two-dimensional (2D) materials oriented at low twist angles generate a large-scale interference pattern leading to strong interlayer coupling, which influences the band structure and introduces flatbands. Conventional electronic transport measurements have shown the effects of flatband physics, manifesting as correlated insulating states and emergent superconductivity. In this study, we probe the electronic states in a trinary hybrid of graphene and twisted bilayer (tbl) MoS2. Graphene acts as a sensing layer, which captures the electronic effects of the underlying substrate, and we observe certain anomalies in the electronic characteristics of graphene only in the presence of an underlying 58.5 ∘ tbl MoS2, at low temperatures. Interestingly, graphene on tbl MoS2, with twist angle near 0 ∘ or on natural bilayer MoS2, does not show any anomalies. Density functional theory calculations show several distinguishable peaks in the density of states at the conduction band edge of twisted MoS2 near 60 ∘ . We speculate that the anomaly appears due to fermi level pinning of graphene owing to a large density of states in the flatbands of twisted bilayer MoS2. An analysis of the energetics in the graphene-MoS2 hybrid quantitatively agree with theoretical predictions. [ABSTRACT FROM AUTHOR]

Published

2021

14. Exact Solutions and Symmetry Analysis of a Boussinesq Type Equation for Longitudinal Waves Through a Magneto-Electro-Elastic Circular Rod.

Author

Ghosh, Arindam, Maitra, Sarit, and Chowdhury, Asesh Roy

Published

2021

15. Diagnostic dilemma of primary neonatal iliopsoas abscess.

Author

Ray, Sampurna, Dey, Pranab Kumar, Halder, Pankaj, and Ghosh, Arindam

Abstract

Background: Primary iliopsoas abscess is extremely rare in neonates and overlooked easily. It is potentially curable with surgical drainage and broad-spectrum antibiotics if diagnosed early. Case presentation: A 13-day-old neonate was presented with a swelling and bluish discoloration on the left thigh and groin. There was a restriction of movement of the left lower limb, and he developed high grade fever later on, during hospital stay. In spite of a great dilemma, we could finally reach the diagnosis of primary iliopsoas abscess, performed surgical drainage, and controlled ongoing sepsis. At 3 months follow-up, the patient was doing well and there was no asymmetry in appearance of movements. Conclusion: High index of suspicion, vigilant clinical examinations, and targeted laboratory investigations with imaging studies are of paramount importance in establishing its diagnosis. This case highlights the diagnostic difficulties and re-evaluates the representative features of neonatal iliopsoas abscess and its management. [ABSTRACT FROM AUTHOR]

Published

2021

16. Graphene- and metal-induced energy transfer for single-molecule imaging and live-cell nanoscopy with (sub)-nanometer axial resolution.

Author

Ghosh, Arindam, Chizhik, Alexey I., Karedla, Narain, and Enderlein, Jörg

Published

2021

17. Traveling wave solution and Painleve' analysis of generalized fisher equation and diffusive Lotka–Volterra model.

Author

Kundu, Soumen, Maitra, Sarit, and Ghosh, Arindam

Published

2021

18. The first integral method and some nonlinear models.

Author

Ghosh, Arindam and Maitra, Sarit

Subjects

KORTEWEG-de Vries equation, BOUSSINESQ equations, NONLINEAR differential equations, PARTIAL differential equations, MATHEMATICAL physics

Abstract

In this article, first integral method [Ref. : Feng. Z., Journal of Physics A: Mathematical and General, 35(2002), 343–349] is used to find exact solutions of some nonlinear partial differential equations. It is applied to find exact solutions to a variant Boussinesq equation, the extended modifed Korteweg-de Vries equation and the Kudryashov–Sinel'shchikov equation. The properties of solutions are then discussed and plotted by using suitable values of the parameters involved. Shock wave-like solutions for variant Boussinesq and extended mKdv equations are found. For the Kudryashov–Sinel'shchikov equation one singular and two exponential solutions are obtained. [ABSTRACT FROM AUTHOR]

Published

2021

19. Metabolomics of potential contenders conferring antioxidant property to varied polar and non-polar solvent extracts of Edgaria darjeelingensis C.B.Clarke.

Author

Chakraborty, Sourav, Majumder, Soumya, Ghosh, Arindam, Saha, Sumedha, and Bhattacharya, Malay

Subjects

METABOLOMICS, PLANT extracts, ANTIOXIDANT analysis, FLAVONOIDS, BIOSYNTHESIS

Abstract

Background: The Himalaya hotspot, habitat to numerous indigenous species, harbours an endemic and endangered, cucurbit climber Herpetospermum darjeelingense (C.B.Clarke) H.Schaef. & S.S.Renner [Edgaria darjeelingensis C.B.Clarke]. Seeds of this plant have traditionally been used for ethno-veterinary treatment. The present probe aims to provide an insight into the antioxidant-related biochemical attributes of this phytochemically unexplored plant. Results: DPPH scavenging activity of solvent extracts showed more potential towards the polar end with its maximum activity in methanolic extract (84.64%). Acetone extract showed more ferric reducing power than the ethanol fractions. Maximum flavonoid quantification was recorded in ethanol extract. GC–MS of methanolic extract detected 39 compounds of which 22 have preventive and curing properties for several ailments. Thirteen compounds were reported with antioxidant activity and cover an area of 63.92% among the total detected compounds by GC–MS. 1,3,4,5-Tetrahydroxy-cyclohexanecarboxylic acid; Hexadecanoic acid, methyl ester; ß sitosterol and Phytol are present in significant quantity and are the prime candidates conferring antioxidant potential. Chromatographically fractionalized methanol extract with non-polar to polar solvents and their subsequent DPPH scavenging analysis exhibited a major peak in ethanol fraction due to the presence of Phytol in considerable high quantity and some other compounds. Further sub-fractionation of ethanolic fraction provides a supportive evidence of ethanol solubility of the compounds. Biosynthetic lineage reveals fatty acid synthesis, intermediates of Shikimate pathway and terpenoid metabologenesis schemes lead to the several antioxidant molecules detected in our extract. Conclusion: Metabolomics of antioxidants will provide a better understanding in its intracellular free radical quenching activity and isolation of these bioactive compounds can boost pharmaceutical industry. [ABSTRACT FROM AUTHOR]

Published

2021

20. Predictors of Leak After Colorectal Anastomoses: a Case Series Analysis.

Author

Kishor, Shiv, Singh, Harpal, Ghosh, Arindam, and Kumar, Anil

Subjects

SURGICAL complication risk factors, COLON surgery, RECTAL surgery, SURGICAL anastomosis, ACQUISITION of data methodology, STROKE, SURGERY, PATIENTS, RETROSPECTIVE studies, RISK assessment, T-test (Statistics), SERUM albumin, DIGESTIVE organ surgery, CASE studies, MEDICAL records, CHI-squared test, DESCRIPTIVE statistics, ALCOHOL drinking, SMOKING, LONGITUDINAL method, DISEASE complications

Abstract

Anastomotic leak (AL) is a major morbid complication after colorectal surgery. There are only few articles to find the predictors of leak after colorectal anastomoses that have been published in the literature. The aim of this study is to identify different predictors for colorectal AL in Indian set up. Historical data were collected from the hospital record of patients from June 2005 to April 2014. In prospective period, from May 2014 to February 2016, colorectal surgery patients were recruited to collect the data. Various preoperative, intraoperative, and postoperative factors for AL were analyzed using Student's t test and Chi square test. The p value less than 0.05 was considered statistically significant for all results. The AL rate was 9.1%. The predictors for AL were comorbidities like cerebrovascular accident (CVA) (p < 0.05), alcohol intake and smoking habit (p = 0.006), preoperative low albumin (AL in 21.2%), emergency surgery (AL in 25% with p = 0.016), jejuno-colic anastomosis − 1/1 (100%), and maximum AL in ligation of ileocolic artery (p = 0.019). History of CVA, smoking, alcohol, hypoalbuminemia, emergency surgery, type of surgery, and high artery ligation have significant role in causing AL in a patient of colorectal surgery. Raised temperature and tachycardia are the significant clinical signs to diagnose AL after colorectal surgery. [ABSTRACT FROM AUTHOR]

Published

2021

21. Jordan Left {g, h}-Derivation over Some Algebras.

Author

Ghosh, Arindam and Prakash, Om

Abstract

In this article, left {g, h}-derivation and Jordan left {g, h}-derivation on algebras are introduced. It is shown that there is no Jordan left {g, h}-derivation over ℳ n (C) and ℍℝ, for g ≠ h. Examples are given which show that every Jordan left {g, h}-derivation over T n (C) , ℳ n (C) and ℍℝ are not left {g, h}-derivations. Also, the Jordan left {g, h}-derivations over T n (C) , ℳ n (C) and ℍℝ are right centralizers, where C is a 2-torsionfree commutative ring. Moreover, we prove the result of Jordan left {g, h}-derivation to be a left {g, h}-derivation over tensor products of algebras as well as for algebra of polynomials. [ABSTRACT FROM AUTHOR]

Published

2020

22. Tailoring phonon modes of few-layered MoS2 by in-plane electric field.

Author

Mitra, Sreemanta, Srivastava, Divya, Singha, Shib Shankar, Dutta, Saurav, Satpati, Biswarup, Karppinen, Maarit, Ghosh, Arindam, and Singha, Achintya

Subjects

PHONONS, ELECTRIC fields, RAMAN spectroscopy, STRAIN sensors, DENSITY functional theory

Abstract

We discuss the effect of the in-plane electric field on the Raman spectroscopy for few-layered MoS2. The characteristic Raman modes of MoS2 show gradual red shift, while the intensity increases by 45–50% as the electric field is increased, showing a large electro-optical effect. Structural analysis suggests that our few-layered MoS2 belongs to P6/m2 space group with broken inversion symmetry. We attribute this gradual red shift to this broken symmetry-driven piezoelectricity in MoS2, which generates tensile strain along the perpendicular direction when the electric field is applied. The enhancement of the effect upon reversing the electric field direction adds credence to our interpretation. Our first principal density-functional theory calculation further substantiates the claim. This optical probing of the electromechanical coupling may lead to applications as a nonextensive technique for electric field/strain sensors in the nanoelectronics devices. [ABSTRACT FROM AUTHOR]

Published

2020

23. Graphene-based metal-induced energy transfer for sub-nanometre optical localization.

Author

Ghosh, Arindam, Sharma, Akshita, Chizhik, Alexey I., Isbaner, Sebastian, Ruhlandt, Daja, Tsukanov, Roman, Gregor, Ingo, Karedla, Narain, and Enderlein, Jörg

Abstract

Single-molecule fluorescence imaging has become an indispensable tool for almost all fields of research, from fundamental physics to the life sciences. Among its most important applications is single-molecule localization super-resolution microscopy (SMLM) (for example, photoactivated localization microscopy (PALM)1, stochastic optical reconstruction microscopy (STORM)2, fluorescent PALM (fPALM)3, direct STORM (dSTORM)4 and point accumulation for imaging in nanoscale topography (PAINT)5), which uses the fact that the centre position of a single molecule's image can be determined with much higher accuracy than the size of that image itself. However, a big challenge of SMLM is to achieve super-resolution along the third dimension as well. Recently, metal-induced energy transfer (MIET) was introduced to axially localize fluorescent emitters6–9. This exploits the energy transfer from an excited fluorophore to plasmons in a thin metal film. Here, we show that by using graphene as the 'metal' layer, one can increase the localization accuracy of MIET by nearly tenfold. We demonstrate this by axially localizing single emitters and by measuring the thickness of lipid bilayers with ångström accuracy. Using graphene as the 'metal' layer can increase the localization accuracy of metal-induced energy transfer, enabling axial localization of single emitters and measurement of the thickness of lipid bilayers with ångström accuracy. [ABSTRACT FROM AUTHOR]

Published

2019

24. Building a Prototype VANET Testbed to Explore Communication Dynamics in Highly Mobile Environments.

Author

Paranthaman, Vishnu Vardhan, Ghosh, Arindam, Mapp, Glenford, Iniovosa, Victor, Shah, Purav, Nguyen, Huan X., Gemikonakli, Orhan, and Rahman, Shahedur

Published

2017

25. Electrical Manipulation and Sorting of Cells.

Author

Cemazar, Jaka, Ghosh, Arindam, and Davalos, Rafael V.

Published

2017

26. Cross-language transfer of semantic annotation via targeted crowdsourcing: task design and evaluation.

Author

Stepanov, Evgeny A., Chowdhury, Shammur Absar, Bayer, Ali Orkan, Ghosh, Arindam, Klasinas, Ioannis, Calvo, Marcos, Sanchis, Emilio, and Riccardi, Giuseppe

Subjects

SEMANTICS, MULTILINGUAL computing, CROWDSOURCING, ANNOTATIONS, ENGLISH language

Abstract

Modern data-driven spoken language systems (SLS) require manual semantic annotation for training spoken language understanding parsers. Multilingual porting of SLS demands significant manual effort and language resources, as this manual annotation has to be replicated. Crowdsourcing is an accessible and cost-effective alternative to traditional methods of collecting and annotating data. The application of crowdsourcing to simple tasks has been well investigated. However, complex tasks, like cross-language semantic annotation transfer, may generate low judgment agreement and/or poor performance. The most serious issue in cross-language porting is the absence of reference annotations in the target language; thus, crowd quality control and the evaluation of the collected annotations is difficult. In this paper we investigate targeted crowdsourcing for semantic annotation transfer that delegates to crowds a complex task such as segmenting and labeling of concepts taken from a domain ontology; and evaluation using source language annotation. To test the applicability and effectiveness of the crowdsourced annotation transfer we have considered the case of close and distant language pairs: Italian–Spanish and Italian–Greek. The corpora annotated via crowdsourcing are evaluated against source and target language expert annotations. We demonstrate that the two evaluation references (source and target) highly correlate with each other; thus, drastically reduce the need for the target language reference annotations. [ABSTRACT FROM AUTHOR]

Published

2018

27. Correction to: HumanSense: a framework for collective human activity identification using heterogeneous sensor grid in multi-inhabitant smart environments.

Author

Ghosh, Arindam, Chakraborty, Amartya, Kumbhakar, Joydeep, Saha, Mousumi, and Saha, Sujoy

Subjects

*HUMAN activity recognition, *DETECTORS, *HUMAN beings

Abstract

The actual Fig. 13 has been missing and in place of Fig. 13, Fig. 14 has been shown. [ABSTRACT FROM AUTHOR]

Published

2022

28. Smart Inter-Phase Switching of Residential Loads in Low Voltage Distribution Feeders.

Author

Shahnia, Farhad, Wolfs, Peter, and Ghosh, Arindam

Published

2014

29. On-line Demand Management of Low Voltage Residential Distribution Networks in Smart Grids.

Author

Shahnia, Farhad, Wishart, Michael T., and Ghosh, Arindam

Published

2014

30. Interconnected Autonomous Microgrids in Smart Grids with Self-Healing Capability.

Author

Shahnia, Farhad, Chandrasena, Ruwan P. S., Rajakaruna, Sumedha, and Ghosh, Arindam

Published

2014

31. High Penetration of Rooftop Photovoltaic Cells in Low Voltage Distribution Networks: Voltage Imbalance and Improvement.

Author

Shahnia, Farhad and Ghosh, Arindam

Published

2014

32. Influence of Cu doping on the structural, electrical and optical properties of ZnO.

Author

GHOSH, ARINDAM, KUMARI, NAVNITA, and BHATTACHARJEE, AYON

Subjects

*ELECTRIC properties, *COPPER, *OPTICAL properties of copper, *DOPING agents (Chemistry), *ZINC oxide, *METAL nanoparticles, *CHEMICAL structure, *X-ray diffraction

Abstract

Pure and Cu-doped zinc oxide (ZnO) nanoparticles were prepared using a chemical method. The dopant concentration (Cu/Zn in atomic percentage (wt%)) is varied from 0 to 3 wt%. Structural characterization of the samples performed using X-ray diffraction (XRD) confirmed that all the nanoparticles of zinc oxide are having polycrystalline nature. Morphological studies were conducted using field emission scanning electron microscopy (FESEM) to confirm the grain size and texture. Electrical measurements showed that the AC conductivity initially decreases and then rises with increasing Cu concentration. The UV-Vis studies showed absorbance peaks in the 200-800 nm region. It is found that the absorbance does not significantly change with doping. This fact is further confirmed from the band-gap calculations using the reflectance graphs. When analysed in terms of Burstein-Moss shift, an increase of band gap from 3.42 to 3.54 eV with increasing Cu concentration is observed. In the Photoluminescence (PL) studies a red-shift is observed with increasing dopant concentration. [ABSTRACT FROM AUTHOR]

Published

2015

33. Clinico-Biochemical Correlation Between Psoriasis and Insulin Resistance.

Author

Dhara, Suparna, Dasgupta, Anindya, Rout, Jayanta, Banerjee, Ushasi, Dasgupta, Sayantan, and Ghosh, Arindam

Abstract

Psoriasis is a chronic inflammatory disease associated with an increased insulin resistance, obesity and cardiovascular risk. The present study was aimed to assess insulin resistance and pattern of body fat deposition in psoriasis. Body mass index (BMI) and waist circumference (WC) were measured in 40 psoriatic patients and 46 age- and sex-matched control subjects. Fasting blood glucose (FBG) and serum insulin level were measured by standard photometric method and ELISA respectively. HOMA-IR (homeostatic model of insulin resistance) was calculated by appropriate software. The results indicated that case and control groups were comparable in terms of age and sex ( p = 0.934) with an increased prevalence of psoriasis among male subjects (60 %). FBG and mean WC between the two groups were statistically not significant ( p value = 0.271 and 0.21 respectively). BMI was significantly higher in case group compared to the control group ( p = 0.049). Serum insulin level and insulin resistance in the psoriatic patients were significantly higher ( p value <0.001). Multiple regression analysis revealed that insulin resistance (measured by HOMA) was dependent on BMI and WC at a significance level of p < 0.001 and 0.043 respectively. Therefore, the psoriatic patients in this region have significantly high amount of fasting serum insulin level along with an increased IR though their FBG level remains normal. Furthermore, these abnormalities are significantly dependent on total body fat as well as abdominal fat deposits. We suggest that psoriatic patients need to be evaluated for metabolic syndrome and managed accordingly. [ABSTRACT FROM AUTHOR]

Published

2015

34. Load Frequency Control in a Microgrid: Challenges and Improvements.

Author

Majumder, Ritwik, Ghosh, Arindam, and Ledwich, Gerard

Published

2012

35. Analysis of Inter-RSU Beaconing Interference in VANETs.

Author

Gañán, Carlos, Loo, Jonathan, Ghosh, Arindam, Esparza, Oscar, Reñé, Sergi, and Muñoz, Jose L.

Published

2012

36. At a long-awaited turning point.

Author

Ghosh, Arindam and Krishnan, Yamuna

Subjects

*NANOTECHNOLOGY, *ECONOMIC development, *EDUCATION, *INFRASTRUCTURE (Economics), *ENTREPRENEURSHIP

Abstract

The article presents authors' comments on the increasing investments in the field of research in nanotechnology in India and offers suggestions for country's rapid economic growth. Topics include investments in sectors such as education, infrastructure and entrepreneurship, nanotechnology funding by several Indian government bodies such as the Department of Information Technology, and insufficient human resources in the field of nantechnology in India.

Published

2014

37. Graphene-MoS2 hybrid structures for multifunctional photoresponsive memory devices.

Author

Roy, Kallol, Padmanabhan, Medini, Goswami, Srijit, Sai, T. Phanindra, Ramalingam, Gopalakrishnan, Raghavan, Srinivasan, and Ghosh, Arindam

Subjects

MOLYBDENUM disulfide, ELECTRIC properties of graphene, HETEROSTRUCTURES, PHOTOSENSITIVITY, OPTOELECTRONIC devices, COMPUTER storage devices, PHOTODETECTORS

Abstract

Combining the electronic properties of graphene and molybdenum disulphide (MoS2) in hybrid heterostructures offers the possibility to create devices with various functionalities. Electronic logic and memory devices have already been constructed from graphene-MoS2 hybrids, but they do not make use of the photosensitivity of MoS2, which arises from its optical-range bandgap. Here, we demonstrate that graphene-on-MoS2 binary heterostructures display remarkable dual optoelectronic functionality, including highly sensitive photodetection and gate-tunable persistent photoconductivity. The responsivity of the hybrids was found to be nearly 1 × 1010 A W−1 at 130 K and 5 × 108 A W−1 at room temperature, making them the most sensitive graphene-based photodetectors. When subjected to time-dependent photoillumination, the hybrids could also function as a rewritable optoelectronic switch or memory, where the persistent state shows almost no relaxation or decay within experimental timescales, indicating near-perfect charge retention. These effects can be quantitatively explained by gate-tunable charge exchange between the graphene and MoS2 layers, and may lead to new graphene-based optoelectronic devices that are naturally scalable for large-area applications at room temperature. [ABSTRACT FROM AUTHOR]

Published

2013

38. Dietary supplementation with N-acetyl cysteine, α-tocopherol and α-lipoic acid reduces the extent of oxidative stress and proinflammatory state in aged rat brain.

Author

Thakurta, Ishita, Chattopadhyay, Mrittika, Ghosh, Arindam, and Chakrabarti, Sasanka

Abstract

The present study has attempted to understand how oxidative stress contributes to the development of proinflammatory state in the brain during aging. Three groups of rats have been used in this study: young (4-6 months, Group I), aged (22-24 months, Group II) and aged with dietary antioxidant supplementation (Group III). The antioxidants were given daily from 18 months onwards in the form of a combination of N-acetyl cysteine (50 mg/100 g body weight), α-lipoic acid (3 mg/100 g body weight), and α-tocopherol (1.5 mg/100 g body weight) till the animals were used for the experiments between 22 and 24 months. Several measurements have been made to evaluate the ROS (reactive oxygen species) production rate, the levels of proinflammatory cytokines (IL-1β, IL-6 and TNF-α) and the activation status of NF-κβ (p65 subunit) in brain of the three groups of rats under the study. Our results reveal that brain aging is accompanied with a significant increase in NADPH oxidase activity and mitochondrial ROS production, a distinct elevation of IL-1β, IL-6 and TNF-α levels along with increased nuclear translocation of NF-κβ (p65 subunit) and all these phenomena are partially but significantly prevented by the long-term dietary antioxidant treatment. The results imply that chronic dietary antioxidants by preventing oxidative stress and proinflammatory state may produce beneficial effects against multiple age-related deficits of the brain. [ABSTRACT FROM AUTHOR]

Published

2012

39. Clean absorption mode NMR data acquisition based on time-proportional phase incrementation.

Author

Wu, Yibing, Ghosh, Arindam, and Szyperski, Thomas

Abstract

Clean absorption mode NMR data acquisition is presented based on mirrored time domain sampling and widely used time-proportional phase incrementation (TPPI) for quadrature detection. The resulting NMR spectra are devoid of dispersive frequency domain peak components. Those peak components exacerbate peak identification and shift peak maxima, and thus impede automated spectral analysis. The new approach is also of unique value for obtaining clean absorption mode reduced-dimensionality projection NMR spectra, which can rapidly provide high-dimensional spectral information for high-throughput NMR structure determination. [ABSTRACT FROM AUTHOR]

Published

2009

40. Tensile Deformation of a Nickel-base Alloy at Elevated Temperatures.

Author

Roy, Ajit K., Venkatesh, Anand, Marthandam, Vikram, and Ghosh, Arindam

Subjects

NICKEL alloys, TEMPERATURE, STRAINS & stresses (Mechanics), DUCTILITY, NICKEL

Abstract

The results of tensile testing involving Waspaloy indicate that the failure strain was gradually reduced at temperatures ranging between ambient and 300 °C. Further, serrations were observed in the engineering stress versus strain diagrams in the temperature range of 300-600 °C. The reduced failure strain and the formation of serrations in these temperature regimes could be the result of dynamic strain aging of this alloy. The extent of work hardening due to plastic deformation was reduced at temperatures above 300 °C. A combination of ductile and intergranular brittle failures was seen at temperatures above 600 °C. γ' was detected at all tested temperatures. [ABSTRACT FROM AUTHOR]

Published

2008

41. The possibility of an intrinsic spin lattice in high-mobility semiconductor heterostructures.

Author

Siegert, Christoph, Ghosh, Arindam, Pepper, Michael, Farrer, Ian, and Ritchie, David A.

Subjects

*SEMICONDUCTORS, *HETEROSTRUCTURES, *FERROMAGNETIC materials, *EMBEDDING theorems, *ELECTRONIC systems

Abstract

Embedding magnetic moments into semiconductor heterostructures offers a tuneable access to various forms of magnetic ordering and phase transitions in low-dimensional electron systems. In general, the moments are introduced artificially, by either doping with ferromagnetic atoms, or electrostatically confining odd-electron quantum dots. Here, we report experimental evidence of an independent, and intrinsic, source of localized spins in high-mobility GaAs/AlGaAs heterostructures with large setback distance (≈80 nm) in modulation doping. Measurements reveal a quasi-regular distribution of the spins in the delocalized Fermi sea, and a mutual interaction via the Ruderman–Kittel–Kasuya–Yosida (RKKY) indirect exchange below 100 mK. We show that a simple model on the basis of the fluctuations in background potential on the host two-dimensional electron system can explain the observed results quantitatively, which suggests a ‘disorder-templated’ microscopic origin of the localized moments. [ABSTRACT FROM AUTHOR]

Published

2007

42. Graphene functionalized field-effect transistors for ultrasensitive detection of Japanese encephalitis and Avian influenza virus.

Author

Roberts, Akanksha, Chauhan, Neha, Islam, Saurav, Mahari, Subhasis, Ghawri, Bhaskar, Gandham, Ravi Kumar, Majumdar, S. S., Ghosh, Arindam, and Gandhi, Sonu

Subjects

FIELD-effect transistors, GRAPHENE, JAPANESE B encephalitis, AVIAN influenza A virus, FIELD-effect devices

Abstract

Graphene, a two-dimensional nanomaterial, has gained immense interest in biosensing applications due to its large surface-to-volume ratio, and excellent electrical properties. Herein, a compact and user-friendly graphene field effect transistor (GraFET) based ultrasensitive biosensor has been developed for detecting Japanese Encephalitis Virus (JEV) and Avian Influenza Virus (AIV). The novel sensing platform comprised of carboxy functionalized graphene on Si/SiO2 substrate for covalent immobilization of monoclonal antibodies of JEV and AIV. The bioconjugation and fabrication process of GraFET was characterized by various biophysical techniques such as Ultraviolet–Visible (UV–Vis), Raman, Fourier-Transform Infrared (FT-IR) spectroscopy, optical microscopy, Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM). The change in the resistance due to antigen–antibody interaction was monitored in real time to evaluate the electrical response of the sensors. The sensors were tested in the range of 1 fM to 1 μM for both JEV and AIV antigens, and showed a limit of detection (LOD) upto 1 fM and 10 fM for JEV and AIV respectively under optimised conditions. Along with ease of fabrication, the GraFET devices were highly sensitive, specific, reproducible, and capable of detecting ultralow levels of JEV and AIV antigen. Moreover, these devices can be easily integrated into miniaturized FET-based real-time sensors for the rapid, cost-effective, and early Point of Care (PoC) diagnosis of JEV and AIV. [ABSTRACT FROM AUTHOR]

Published

2020

43. Natural anti-inflammatory terpenoids in Camellia japonica leaf and probable biosynthesis pathways of the metabolome.

Author

Majumder, Soumya, Ghosh, Arindam, and Bhattacharya, Malay

Subjects

*CAMELLIAS, *ANTI-inflammatory agents, *METABOLOMICS, *TERPENES, *GAS chromatography/Mass spectrometry (GC-MS)

Abstract

Background: Metabolomics of Camellia japonica leaf has been studied to identify the terpenoids present in it and their interrelations regarding biosynthesis as most of their pathways are closely situated. Camellia japonica is famous for its anti-inflammatory activity in the field of medicines and ethno-botany. In this research, we intended to study the metabolomics of Camellia japonica leaf by using gas chromatography-mass spectroscopy technique. Results: A total of twenty-nine anti-inflammatory compounds, occupying 83.96% of total area, came out in the result. Most of the metabolites are terpenoids leading with triterpenoids like squalene, lupeol, and vitamin E. In this study, the candidate molecules responsible for anti-inflammatory activity were spotted out in the leaf extract and biosynthetic relation or interactions between those components were also established. Conclusion: Finding novel anticancer and anti-inflammatory medicinal compounds like lupeol in a large amount in Camellia japonica leaf is the most remarkable outcome of this gas chromatography-mass spectroscopy analysis. Developing probable pathway for biosynthesis of methyl commate B is also noteworthy. [ABSTRACT FROM AUTHOR]

Published

2020

44. Low Power, CMOS-MoS2 Memtransistor based Neuromorphic Hybrid Architecture for Wake-Up Systems.

Author

Gupta, Sarthak, Kumar, Pratik, Paul, Tathagata, van Schaik, André, Ghosh, Arindam, and Thakur, Chetan Singh

Subjects

MOLYBDENUM disulfide, NEUROMORPHICS, ENERGY consumption, TRANSISTORS, COMPUTER storage devices

Abstract

Neuromorphic architectures have become essential building blocks for next-generation computational systems, where intelligence is embedded directly onto low power, small area, and computationally efficient hardware devices. In such devices, realization of neural algorithms requires storage of weights in digital memories, which is a bottleneck in terms of power and area. We hereby propose a biologically inspired low power, hybrid architectural framework for wake-up systems. This architecture utilizes our novel high-performance, ultra-low power molybdenum disulphide (MoS2) based two-dimensional synaptic memtransistor as an analogue memory. Furthermore, it exploits random device mismatches to implement the population coding scheme. Power consumption per CMOS neuron block was found to be 3 nw in the 65 nm process technology, while the energy consumption per cycle was 0.3 pJ for potentiation and 20 pJ for depression cycles of the synaptic device. The proposed framework was demonstrated for classification and regression tasks, using both off-chip and simplified on-chip sign-based learning techniques. [ABSTRACT FROM AUTHOR]

Published

2019

45. Microfluidic-based graphene field effect transistor for femtomolar detection of chlorpyrifos.

Author

Islam, Saurav, Shukla, Shruti, Bajpai, Vivek K., Han, Young-Kyu, Huh, Yun Suk, Ghosh, Arindam, and Gandhi, Sonu

Abstract

Chlorpyrifos is one of the most widely used pesticides that acts on the nervous system by inhibiting acetylcholinesterase. Prolonged use of chlorpyrifos causes severe neurological, autoimmune, and persistent developmental disorders in humans. Therefore, in this study, a highly sensitive and robust biosensor platform was devised by fabricating graphene field effect transistors (graFET) on Si/SiO2 substrate for the detection of chlorpyrifos in real samples. Anti-chlorpyrifos antibodies were immobilized successfully on the graphene surface. Under optimal conditions, graFET sensor showed an excellent response for chlorpyrifos detection in the linear range of 1 fM to 1 µM with a limit of detection up to 1.8 fM in spiked samples. The developed graFET biosensor is highly stable, sensitive, and specific for chlorpyrifos as confirmed by its significant ability to detect changes in electrostatic potential. These findings signify useful efficacy of immunobiosensors for the detection of chlorpyrifos and other organophosphates in fruits and vegetables. [ABSTRACT FROM AUTHOR]

Published

2019

46. Collaborative model for a two-echelon supply chain with uncertain demand under carbon tax policy.

Author

Ghosh, Arindam, Sarmah, S P, and Jha, J K

Subjects

*GREENHOUSE gases, *CARBON taxes, *SUPPLY chains, *MIXED integer linear programming, *CARBON pricing

Abstract

Consideration of carbon policies while optimizing supply chain operations has become imperative as governments and regulatory bodies throughout the world have implemented different carbon policies to reduce emissions of greenhouse gasses, especially CO2. “Carbon tax” is one of the major carbon policies, initiated by several governments to curtail emissions. In this study, we have considered this policy to optimize the total expected cost (TEC) of a two-echelon integrated supply chain with stochastic demand, where both backorders and lost sales are permitted. An unconstrained mixed integer non-linear programming (MINLP) problem is formulated and further solved to find the optimal production rate, order quantity, number of shipments and reorder point while minimizing the TEC. Emissions from all the major sources such as production, inventory and transportation have been taken into consideration. It is assumed that the emission from production is a function of production rate, and emission from transportation depends on payload and vehicle type. This study will help organizations to reduce cost and emissions, and regulatory bodies to decide proper tax rate on carbon emission. [ABSTRACT FROM AUTHOR]

Published

2018

47. Dephasing rates for weak localization and universal conductance fluctuations in two dimensional Si:P and Ge:P δ-layers.

Author

Shamim, Saquib, Mahapatra, S., Scappucci, G., Klesse, W. M., Simmons, M. Y., and Ghosh, Arindam

Abstract

We report quantum transport measurements on two dimensional (2D) Si:P and Ge:P δ-layers and compare the inelastic scattering rates relevant for weak localization (WL) and universal conductance fluctuations (UCF) for devices of various doping densities (0.3-2.5 × 1018 m−2) at low temperatures (0.3-4.2 K). The phase breaking rate extracted experimentally from measurements of WL correction to conductivity and UCF agree well with each other within the entire temperature range. This establishes that WL and UCF, being the outcome of quantum interference phenomena, are governed by the same dephasing rate. [ABSTRACT FROM AUTHOR]

Published

2017

48. Current crowding mediated large contact noise in graphene field-effect transistors.

Author

Karnatak, Paritosh, Sai, T. Phanindra, Goswami, Srijit, Ghatak, Subhamoy, Kaushal, Sanjeev, and Ghosh, Arindam

Published

2016