123 research outputs found

    ANXIETY OF ISABELLA SWAN ON LOOSING HER LOVE IN CHRIST WEITZ’s NEW MOON MOVIE: A PSYCHOANALYTIC APPROACH

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    The major problem of this study is how the anxiety of the major character, Bella on loosing her love reflected in Christ Weitz’s New Moon movie. The objective of this study is to analyze the movie based on its structural elements, and based on psychoanalytic approach. The benefits of the study are to give in the application of Psychoanalytic approach in literary study. The study belongs to the qualitative study. The object of the study is Isabella Swan’s New Moon movie published in 2009 by Summit Entertainment. The primary data source is the main data obtained from all the images which form such like the scene of the movie itself and the texts which form such like words, phrases, and sentences in dialogues or monologues occurring in the movie related to the topic and the secondary data sources are the other data related to the analysis such as the author’s biography and some reference books. The method of data collection is library research by note-taking for the texts and image-capturing for the images. The technique of data analysis used in this study is descriptive analysis. The study comes to the following conclusions. First, based on the structural analysis, Bella is a girl who has a weak sense and feeling, the most comfortable girl feelings if she is in the top position of sadness is cry. Second, based on the psychoanalytic analysis, it is evident that in this movie, Isabella’s life is directed by her ego, which is dominated by her id and also her superego

    The Jalakeli Project: Thoidingjam Lakshmipriya Devi Interview on Jalakeli and Organization

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    <p>Thoidingjam Lakshmipriya Devi talks about the Jalakeli. She is the President of the Shree Shree Govinda Jiu Jalakeli Pala. The interview is in Manipuri and in 8 parts:</p> <p>1) How I came to the Jalakeli</p> <p>2) My mother Maharaj Kumari Angousana Devi</p> <p>3) My grandmother Maharani Dhanamanjuri Devi: How she started the Choir of the Daughters-in-Law</p> <p>4) The Songs of the Choir of the Daughters: The Patronage of the Maharajas</p> <p>5) How I organize the Jalakeli</p> <p>6) My aunt Maharaj Kumari Binodini Devi: Why she never joined the Jalakeli</p> <p>7) Where and When the Jalakeli is Offered</p> <p>8) Remembering their Names: The Invisibility of Women in Manipur's Recorded History</p> <p>The Jalakeli is a HIndu Vaishnav women's performance ritual offered by the two choirs of the Shree Shree Govinda Jiu Jalakeli Pala. The main summer ritual is held every year on Buddha Purnima, the full moon of Kalen (9 May 2017) at the Shree Shree Govindajee Temple of the Royal Palace of Manipur. It is a cycle of songs sung in classical Manipuri sankirtana style by the royal women descendants of Maharaja Narasingh of Manipur (1792-1850). The songs praise Lord Krishna and Lady Radha as they come out to play with water at a fountain. </p> <p>This video is a part of THE JALAKELI PROJECT, Imasi Foundation's web-based, digital, Manipuri women's oral history initiative framed by this traditional women's sankirtana performance ritual of Manipur.</p&gt

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    Investigating the effects of Lorentz Invariance Violation on the CP-sensitivities of the Deep Underground Neutrino Experiment

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    The neutrino oscillations offer great potential for probing new physics effects beyond the Standard Model. Any additional effect on neutrino oscillations can help understand the nature of these non-standard effects. The violation of fundamental symmetries may appear as new physics effects in various neutrino experiments. Lorentz symmetry is one such fundamental symmetry in nature, the violation of which implies a breakdown of space-time symmetry. The Lorentz Invariance Violation (LIV) is intrinsic in nature and its effects exist even in a vacuum. Neutrinos can be an intriguing probe for exploring such violations of Lorentz symmetry. The effect of violation of Lorentz Invariance can be explored through the impact on the neutrino oscillation probabilities. The effect of LIV is treated as a perturbation to the standard neutrino Hamiltonian considering the Standard Model Extension (SME) framework. In this work, we have probed the effect of LIV on the neutrino oscillation measurements considering the Deep Underground Neutrino Experiment (DUNE) as a case study. The inclusion of LIV affects various neutrino oscillation parameters as it modifies the standard neutrino oscillation probabilities. We looked into the capability of DUNE in constraining the LIV parameters and then explored the impact of CPT-violating LIV terms on the mass-induced neutrino oscillation probabilities. We have also probed the influence of LIV parameters on the CP-measurement sensitivity at DUNE.Comment: 33 pages, 16 figure

    Imprints of scalar NSI on the CP-violation sensitivity using synergy among DUNE, T2HK and T2HKK

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    Abstract The Non-Standard Interactions (NSIs) are subdominant effects, often appearing in various extensions of SM, which may impact the neutrino oscillations through matter. It is important and interesting to explore the impact of NSIs in the ongoing and upcoming precise neutrino oscillations experiments. In this work, we have studied the imprints of a scalar-mediated NSI in three upcoming long-baseline (LBL) experiments (DUNE, T2HK and T2HKK). The effects of scalar NSI appears as a medium-dependent correction to the neutrino mass term. Its contribution scales linearly with matter density, making LBL experiments a suitable candidate to probe its effects. We show that the scalar NSI may significantly impact the oscillation probabilities, event rates at the detectors and the χ 2-sensitivities of δ CP measurements. We present the results of a combined analysis involving the LBL experiments (DUNE+T2HK or DUNE+T2HKK) which offer a better capability of constraining the scalar NSI parameters as well as an improved sensitivity towards CP-violation

    Scalar NSI: A unique tool for constraining absolute neutrino masses via ν\nu-oscillations

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    In the standard interaction scenario, a direct measurement of absolute neutrino masses via neutrino oscillations is not feasible, as the oscillations depend only on the mass-squared differences. However, the presence of scalar non-standard interactions can introduce sub-dominant terms in the oscillation Hamiltonian that can directly affect the neutrino mass matrix and thereby making scalar NSI a unique tool for neutrino mass measurements. In this work, for the first time, we constrain the absolute masses of neutrinos by probing scalar NSI. We show that a bound on the lightest neutrino mass can be induced in the presence of scalar NSI at DUNE. We find that the lightest neutrino mass can be best constrained with ηττ\eta_{\tau\tau} and ημμ\eta_{\mu\mu} at 2σ2\sigma C.L. for normal and inverted hierarchy respectively. This study suggests that scalar NSI can serve as an interesting avenue to constrain the absolute neutrino masses in long-baseline neutrino experiments via neutrino oscillations.Comment: 8 pages, 5 figures, 3 table

    Exploring the effects of Scalar Non Standard Interactions on the CP violation sensitivity at DUNE

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    The Neutrino oscillations have provided an excellent opportunity to study new-physics beyond the Standard Model, popularly known as BSM. The unknown couplings involving neutrinos, termed non-standard interactions (NSI), may appear as `new-physics' in different neutrino experiments. The neutrino NSI offers significant effects on neutrino oscillations and CP-sensitivity, which may be probed in various neutrino experiments. The idea of neutrinos coupling with a scalar has evolved recently and looks promising. The effects of scalar NSI may appear as a perturbation to the neutrino mass matrix in the neutrino Hamiltonian. It modifies the neutrino mass matrix and may provide a direct possibility of probing neutrino mass models. As the scalar NSI affects the neutrino mass matrix in the Hamiltonian, its effect is energy independent. Moreover, the matter effects due to scalar NSI scales linearly with the matter density. In this work, we have performed a model-independent study of the effects of scalar NSI at long baseline neutrino experiments, taking DUNE as a case study. We have performed such a thorough study for DUNE for the first time. Various neutrino parameters may get affected due to the inclusion of scalar NSI as it modifies the effective mass matrix of neutrinos. We have explored the impact of scalar NSI in neutrino oscillations and its impact on the measurements of various mixing parameters. We have probed the effects of scalar NSI on different oscillation channels relevant to the experiment. We have also explored the impact of various possible elements in the scalar NSI term on the CP-violation sensitivity at DUNE.Comment: Revised version, accepted for publication in JHE
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