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4,133 results on '"BISWAS, R"'

2. Reimagining partial thickness keratoplasty: An eye mountable robot for autonomous big bubble needle insertion

Author

Wang, Y., Opfermann, J. D., Yu, J., Yi, H., Kaluna, J., Biswas, R., Zuo, R., Gensheimer, W., Krieger, A., and Kang, J. U.

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

Autonomous surgical robots have demonstrated significant potential to standardize surgical outcomes, driving innovations that enhance safety and consistency regardless of individual surgeon experience. Deep anterior lamellar keratoplasty (DALK), a partial thickness corneal transplant surgery aimed at replacing the anterior part of cornea above Descemet membrane (DM), would greatly benefit from an autonomous surgical approach as it highly relies on surgeon skill with high perforation rates. In this study, we proposed a novel autonomous surgical robotic system (AUTO-DALK) based on a customized neural network capable of precise needle control and consistent big bubble demarcation on cadaver and live rabbit models. We demonstrate the feasibility of an AI-based image-guided vertical drilling approach for big bubble generation, in contrast to the conventional horizontal needle approach. Our system integrates an optical coherence tomography (OCT) fiber optic distal sensor into the eye-mountable micro robotic system, which automatically segments OCT M-mode depth signals to identify corneal layers using a custom deep learning algorithm. It enables the robot to autonomously guide the needle to targeted tissue layers via a depth-controlled feedback loop. We compared autonomous needle insertion performance and resulting pneumo-dissection using AUTO-DALK against 1) freehand insertion, 2) OCT sensor guided manual insertion, and 3) teleoperated robotic insertion, reporting significant improvements in insertion depth, pneumo-dissection depth, task completion time, and big bubble formation. Ex vivo and in vivo results indicate that the AI-driven, AUTO-DALK system, is a promising solution to standardize pneumo-dissection outcomes for partial thickness keratoplasty.

Published
2024

3. Phase transitions in random circuit sampling

Author

Morvan, A., Villalonga, B., Mi, X., Mandrà, S., Bengtsson, A., Klimov, P. V., Chen, Z., Hong, S., Erickson, C., Drozdov, I. K., Chau, J., Laun, G., Movassagh, R., Asfaw, A., Brandão, L. T. A. N., Peralta, R., Abanin, D., Acharya, R., Allen, R., Andersen, T. I., Anderson, K., Ansmann, M., Arute, F., Arya, K., Atalaya, J., Bardin, J. C., Bilmes, A., Bortoli, G., Bourassa, A., Bovaird, J., Brill, L., Broughton, M., Buckley, B. B., Buell, D. A., Burger, T., Burkett, B., Bushnell, N., Campero, J., Chang, H.-S., Chiaro, B., Chik, D., Chou, C., Cogan, J., Collins, R., Conner, P., Courtney, W., Crook, A. L., Curtin, B., Debroy, D. M., Barba, A. Del Toro, Demura, S., Paolo, A. Di, Dunsworth, A., Faoro, L., Farhi, E., Fatemi, R., Ferreira, V. S., Burgos, L. Flores, Forati, E., Fowler, A. G., Foxen, B., Garcia, G., Genois, É., Giang, W., Gidney, C., Gilboa, D., Giustina, M., Gosula, R., Dau, A. Grajales, Gross, J. A., Habegger, S., Hamilton, M. C., Hansen, M., Harrigan, M. P., Harrington, S. D., Heu, P., Hoffmann, M. R., Huang, T., Huff, A., Huggins, W. J., Ioffe, L. B., Isakov, S. V., Iveland, J., Jeffrey, E., Jiang, Z., Jones, C., Juhas, P., Kafri, D., Khattar, T., Khezri, M., Kieferová, M., Kim, S., Kitaev, A., Klots, A. R., Korotkov, A. N., Kostritsa, F., Kreikebaum, J. M., Landhuis, D., Laptev, P., Lau, K.-M., Laws, L., Lee, J., Lee, K. W., Lensky, Y. D., Lester, B. J., Lill, A. T., Liu, W., Livingston, W. P., Locharla, A., Malone, F. D., Martin, O., Martin, S., McClean, J. R., McEwen, M., Miao, K. C., Mieszala, A., Montazeri, S., Mruczkiewicz, W., Naaman, O., Neeley, M., Neill, C., Nersisyan, A., Newman, M., Ng, J. H., Nguyen, A., Nguyen, M., Niu, M. Yuezhen, O’Brien, T. E., Omonije, S., Opremcak, A., Petukhov, A., Potter, R., Pryadko, L. P., Quintana, C., Rhodes, D. M., Rocque, C., Rosenberg, E., Rubin, N. C., Saei, N., Sank, D., Sankaragomathi, K., Satzinger, K. J., Schurkus, H. F., Schuster, C., Shearn, M. J., Shorter, A., Shutty, N., Shvarts, V., Sivak, V., Skruzny, J., Smith, W. C., Somma, R. D., Sterling, G., Strain, D., Szalay, M., Thor, D., Torres, A., Vidal, G., Heidweiller, C. Vollgraff, White, T., Woo, B. W. K., Xing, C., Yao, Z. J., Yeh, P., Yoo, J., Young, G., Zalcman, A., Zhang, Y., Zhu, N., Zobrist, N., Rieffel, E. G., Biswas, R., Babbush, R., Bacon, D., Hilton, J., Lucero, E., Neven, H., Megrant, A., Kelly, J., Roushan, P., Aleiner, I., Smelyanskiy, V., Kechedzhi, K., Chen, Y., and Boixo, S.

Published
2024
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4. Computed Rotational Collision Rate Coefficients for Recently Detected Anionic Cyanopolyynes

Author

González-Sánchez, L., Veselinova, A., Daría, A. Martín Santa, Yurtsever, E., Biswas, R., Giri, K., Sathyamurthy, N., Lourderaj, U., Wester, R., and Gianturco, F. A.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

We report new results from quantum calculations of energy-transfer processes taking place in interstellar environments and involving two newly observed molecular species: C$_5$N$^-$ and C$_7$N$^-$ in collision with He atoms and the p-H$_2$ molecules. These species are part of the anionic molecular chains labeled as cyanopolyynes which have been observed over the years in molecule-rich Circumstellar Envelopes and in molecular clouds. In the present work, we first carry out new $ab$ $initio$ calculations for the C$_7$N$^-$ interaction potential with He atom and then obtain state-to-state rotationally inelastic cross sections and rate coefficients involving the same transitions which have been observed experimentally by emission in the interstellar medium (ISM) from both of these linear species. For the C$_5$N$^-$/He system we extend the calculations already published in our earlier work (see reference below) to compare more directly the two molecular anions. We extend further the quantum calculations by also computing in this work collision rate coefficients for the hydrogen molecule interacting with C5N$^-$, using our previously computed interaction potential. Additionally, we obtain the same rate coefficients for the C$_7$N$^-$/H$_2$ system by using a scaling procedure that makes use of the new C$_7$N$^-$/He rate coefficients, as discussed in detail in the present paper. Their significance in affecting internal state populations in ISM environments where the title anions have been found is analyzed by using the concept of critical density indicators. Finally, similarities and differences between such species and the comparative efficiency of their collision rate coefficients are discussed. These new calculations suggest that, at least for the case of these longer chains, the rotational populations could reach local thermal equilibrium conditions within their observational environments.

Published
2023

6. Phase transition in Random Circuit Sampling

Author

Morvan, A., Villalonga, B., Mi, X., Mandrà, S., Bengtsson, A., Klimov, P. V., Chen, Z., Hong, S., Erickson, C., Drozdov, I. K., Chau, J., Laun, G., Movassagh, R., Asfaw, A., Brandão, L. T. A. N., Peralta, R., Abanin, D., Acharya, R., Allen, R., Andersen, T. I., Anderson, K., Ansmann, M., Arute, F., Arya, K., Atalaya, J., Bardin, J. C., Bilmes, A., Bortoli, G., Bourassa, A., Bovaird, J., Brill, L., Broughton, M., Buckley, B. B., Buell, D. A., Burger, T., Burkett, B., Bushnell, N., Campero, J., Chang, H. S., Chiaro, B., Chik, D., Chou, C., Cogan, J., Collins, R., Conner, P., Courtney, W., Crook, A. L., Curtin, B., Debroy, D. M., Barba, A. Del Toro, Demura, S., Di Paolo, A., Dunsworth, A., Faoro, L., Farhi, E., Fatemi, R., Ferreira, V. S., Burgos, L. Flores, Forati, E., Fowler, A. G., Foxen, B., Garcia, G., Genois, E., Giang, W., Gidney, C., Gilboa, D., Giustina, M., Gosula, R., Dau, A. Grajales, Gross, J. A., Habegger, S., Hamilton, M. C., Hansen, M., Harrigan, M. P., Harrington, S. D., Heu, P., Hoffmann, M. R., Huang, T., Huff, A., Huggins, W. J., Ioffe, L. B., Isakov, S. V., Iveland, J., Jeffrey, E., Jiang, Z., Jones, C., Juhas, P., Kafri, D., Khattar, T., Khezri, M., Kieferová, M., Kim, S., Kitaev, A., Klots, A. R., Korotkov, A. N., Kostritsa, F., Kreikebaum, J. M., Landhuis, D., Laptev, P., Lau, K. -M., Laws, L., Lee, J., Lee, K. W., Lensky, Y. D., Lester, B. J., Lill, A. T., Liu, W., Livingston, W. P., Locharla, A., Malone, F. D., Martin, O., Martin, S., McClean, J. R., McEwen, M., Miao, K. C., Mieszala, A., Montazeri, S., Mruczkiewicz, W., Naaman, O., Neeley, M., Neill, C., Nersisyan, A., Newman, M., Ng, J. H., Nguyen, A., Nguyen, M., Niu, M. Yuezhen, O'Brien, T. E., Omonije, S., Opremcak, A., Petukhov, A., Potter, R., Pryadko, L. P., Quintana, C., Rhodes, D. M., Rosenberg, E., Rocque, C., Roushan, P., Rubin, N. C., Saei, N., Sank, D., Sankaragomathi, K., Satzinger, K. J., Schurkus, H. F., Schuster, C., Shearn, M. J., Shorter, A., Shutty, N., Shvarts, V., Sivak, V., Skruzny, J., Smith, W. C., Somma, R. D., Sterling, G., Strain, D., Szalay, M., Thor, D., Torres, A., Vidal, G., Heidweiller, C. Vollgraff, White, T., Woo, B. W. K., Xing, C., Yao, Z. J., Yeh, P., Yoo, J., Young, G., Zalcman, A., Zhang, Y., Zhu, N., Zobrist, N., Rieffel, E. G., Biswas, R., Babbush, R., Bacon, D., Hilton, J., Lucero, E., Neven, H., Megrant, A., Kelly, J., Aleiner, I., Smelyanskiy, V., Kechedzhi, K., Chen, Y., and Boixo, S.

Subjects
Quantum Physics
Abstract

Undesired coupling to the surrounding environment destroys long-range correlations on quantum processors and hinders the coherent evolution in the nominally available computational space. This incoherent noise is an outstanding challenge to fully leverage the computation power of near-term quantum processors. It has been shown that benchmarking Random Circuit Sampling (RCS) with Cross-Entropy Benchmarking (XEB) can provide a reliable estimate of the effective size of the Hilbert space coherently available. The extent to which the presence of noise can trivialize the outputs of a given quantum algorithm, i.e. making it spoofable by a classical computation, is an unanswered question. Here, by implementing an RCS algorithm we demonstrate experimentally that there are two phase transitions observable with XEB, which we explain theoretically with a statistical model. The first is a dynamical transition as a function of the number of cycles and is the continuation of the anti-concentration point in the noiseless case. The second is a quantum phase transition controlled by the error per cycle; to identify it analytically and experimentally, we create a weak link model which allows varying the strength of noise versus coherent evolution. Furthermore, by presenting an RCS experiment with 67 qubits at 32 cycles, we demonstrate that the computational cost of our experiment is beyond the capabilities of existing classical supercomputers, even when accounting for the inevitable presence of noise. Our experimental and theoretical work establishes the existence of transitions to a stable computationally complex phase that is reachable with current quantum processors.

Published
2023
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8. Comments on Systematic Effects in the NIST Beam Neutron Lifetime Experiment

Author

Wietfeldt, F. E., Biswas, R., Caylor, J., Crawford, B., Dewey, M. S., Fomin, N., Greene, G. L., Haddock, C. C., Hoogerheide, S. F., Mumm, H. P., Nico, J. S., Snow, W. M., and Zuchegno, J.

Subjects
Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

We discuss issues raised by Serebrov, et al. in a recent paper regarding systematic effects in the beam neutron lifetime experiment performed at NIST. We show that these effects were considered in the original analyses and that our corrections and systematic uncertainties were appropriate. We point out some misconceptions and erroneous assumptions in the analysis of Serebrov, et al. None of the issues raised in Serebrov, et al lead us to alter the value of the neutron lifetime reported previously., Comment: arXiv admin note: substantial text overlap with arXiv:nucl-ex/0411041, arXiv:2004.01165

Published
2022

9. SNGuess: A method for the selection of young extragalactic transients

Author

Miranda, N., Freytag, J. C., Nordin, J., Biswas, R., Brinnel, V., Fremling, C., Kowalski, M., Mahabal, A., Reusch, S., and van Santen, J.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Machine Learning
Abstract

With a rapidly rising number of transients detected in astronomy, classification methods based on machine learning are increasingly being employed. Their goals are typically to obtain a definitive classification of transients, and for good performance they usually require the presence of a large set of observations. However, well-designed, targeted models can reach their classification goals with fewer computing resources. This paper presents SNGuess, a model designed to find young extragalactic nearby transients with high purity. SNGuess works with a set of features that can be efficiently calculated from astronomical alert data. Some of these features are static and associated with the alert metadata, while others must be calculated from the photometric observations contained in the alert. Most of the features are simple enough to be obtained or to be calculated already at the early stages in the lifetime of a transient after its detection. We calculate these features for a set of labeled public alert data obtained over a time span of 15 months from the Zwicky Transient Facility (ZTF). The core model of SNGuess consists of an ensemble of decision trees, which are trained via gradient boosting. Approximately 88% of the candidates suggested by SNGuess from a set of alerts from ZTF spanning from April 2020 to August 2021 were found to be true relevant supernovae (SNe). For alerts with bright detections, this number ranges between 92% and 98%. Since April 2020, transients identified by SNGuess as potential young SNe in the ZTF alert stream are being published to the Transient Name Server (TNS) under the AMPEL_ZTF_NEW group identifier. SNGuess scores for any transient observed by ZTF can be accessed via a web service. The source code of SNGuess is publicly available., Comment: 14 pages, 10 figures, Astronomy & Astrophysics (A&A), Forthcoming article, source code https://github.com/nmiranda/SNGuess

Published
2022
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16. Supernova Siblings and their Parent Galaxies in the Zwicky Transient Facility Bright Transient Surve

Author

Graham, M. L., Fremling, C., Perley, D. A., Biswas, R., Phillips, C. A., Sollerman, J., Nugent, P. E., Nance, S., Dhawan, S., Nordin, J., Goobar, A., Miller, A., Neill, J. D., Hall, X. J., Hankins, M. J., Duev, D. A., Kasliwal, M. M., Rigault, M., Bellm, E. C., Hale, D., Mróz, P., and Kulkarni, S. R.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies
Abstract

Supernova (SN) siblings -- two or more SNe in the same parent galaxy -- are useful tools for exploring progenitor stellar populations as well as properties of the host galaxies such as distance, star formation rate, dust extinction, and metallicity. Since the average SN rate for a Milky Way-type galaxy is just one per century, a large imaging survey is required to discover an appreciable sample of SN siblings. From the wide-field Zwicky Transient Facility (ZTF) Bright Transient Survey (BTS; which aims for spectroscopic completeness for all transients which peak brighter than $r{<}$18.5 mag) we present 10 SN siblings in 5 parent galaxies. For each of these families we analyze the SN's location within the host and its underlying stellar population, finding agreement with expectations that SNe from more massive progenitors are found nearer to their host core and in regions of more active star formation. We also present an analysis of the relative rates of core collapse and thermonuclear SN siblings, finding a significantly lower ratio than past SN sibling samples due to the unbiased nature of the ZTF., Comment: 14 pages, 4 tables, 7 figures, accepted to MNRAS

Published
2021
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17. SNIa-Cosmology Analysis Results from Simulated LSST Images: from Difference Imaging to Constraints on Dark Energy

Author

Sánchez, B., Kessler, R., Scolnic, D., Armstrong, B., Biswas, R., Bogart, J., Chiang, J., Cohen-Tanugi, J., Fouchez, D., Gris, Ph., Heitmann, K., Hložek, R., Jha, S., Kelly, H., Liu, S., Narayan, G., Racine, B., Rykoff, E., Sullivan, M., Walter, C., Wood-Vasey, M., and Collaboration, The LSST Dark Energy Science

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The Vera Rubin Observatory Legacy Survey of Space and Time (LSST) is expected to process ${\sim}10^6$ transient detections per night. For precision measurements of cosmological parameters and rates, it is critical to understand the detection efficiency, magnitude limits, artifact contamination levels, and biases in the selection and photometry. Here we rigorously test the LSST Difference Image Analysis (DIA) pipeline using simulated images from the Rubin Observatory LSST Dark Energy Science Collaboration (DESC) Data Challenge (DC2) simulation for the Wide-Fast-Deep (WFD) survey area. DC2 is the first large-scale (300 deg$^2$) image simulation of a transient survey that includes realistic cadence, variable observing conditions, and CCD image artifacts. We analyze ${\sim}$15 deg$^2$ of DC2 over a 5-year time-span in which artificial point-sources from Type Ia Supernovae (SNIa) light curves have been overlaid onto the images. We measure the detection efficiency as a function of Signal-to-Noise Ratio (SNR) and find a $50\%$ efficiency at $\rm{SNR}=5.8$. The magnitude limits for each filter are: $u=23.66$, $g=24.69$, $r=24.06$, $i=23.45$, $z=22.54$, $y=21.62$ $\rm{mag}$. The artifact contamination is $\sim90\%$ of detections, corresponding to $\sim1000$ artifacts/deg$^2$ in $g$ band, and falling to 300 per deg$^2$ in $y$ band. The photometry has biases $<1\%$ for magnitudes $19.5 < m <23$. Our DIA performance on simulated images is similar to that of the Dark Energy Survey pipeline applied to real images. We also characterize DC2 image properties to produce catalog-level simulations needed for distance bias corrections. We find good agreement between DC2 data and simulations for distributions of SNR, redshift, and fitted light-curve properties. Applying a realistic SNIa-cosmology analysis for redshifts $z<1$, we recover the input cosmology parameters to within statistical uncertainties., Comment: Submitting to Astronomy & Astrophysics

Published
2021
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18. Optical photonic crystals fabricated from colloidal systems

Author

Subramania, G., Constant, K., Biswas, R., Sigalas, M. M., and Ho, K. -M.

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

Photonic crystals of close-packed arrays of air spheres in a dielectric background of titania have been fabricated with a novel ceramic technique. Unlike previous methods, ordering of the spheres and the formation of the titania network are performed simultaneously. The photonic crystals exhibit a reflectance peak and a uniform color at the position of the first stop band. The wavelength of the reflectance peak scales very well with the sphere size., Comment: 7 pages, 2 figures

Published
2021
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19. The Zwicky Transient Facility Type Ia supernova survey: first data release and results

Author

Dhawan, S., Goobar, A., Smith, M., Johansson, J., Rigault, M., Nordin, J., Biswas, R., Goldstein, D., Nugent, P., Kim, Y. -L., Miller, A. A., Graham, M. J., Medford, M., Kasliwal, M. M., Kulkarni, S. R., Duev, Dmitry A., Bellm, E., Rosnet, P., Riddle, R., and Sollerman, J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Type Ia supernovae (SNe~Ia) in the nearby Hubble flow are excellent distance indicators in cosmology. The Zwicky Transient Facility (ZTF) has observed a large sample of supernovae from an untargeted, rolling survey, reaching $20.8, 20.6, 20.3$ mag in $g$ $r$, and $i$-band, respectively. With a FoV of 47 sq.deg, ZTF discovered $>$ 3000 SNe~Ia in a little over 2.5 years. Here, we report on the sample of 761 spectroscopically classified SNe~Ia from the first year of operations (DR1). The sample has a median redshift $\bar z =$ 0.057, nearly a factor of two higher than the current low-$z$ sample. Our sample has a total of 934 spectra, of which 632 were obtained with the robotic SEDm on Palomar P60. We assess the potential for precision cosmology for a total of 305 SNe with redshifts from host galaxy spectra. The sample is already comparable in size to the entire combined literature low-$z$ anchor sample. The median first detection is 13.5 days before maximum light, about 10 days earlier than the median in the literature. Furthermore, six SNe from our sample are at $D_L < 80$ Mpc, for which host galaxy distances can be obtained in the JWST era, such that we have calibrator and Hubble flow SNe observed with the same instrument. In the entire duration of ZTF-I, we have observed nearly fifty SNe for which we can obtain calibrator distances, key for percent level distance scale measurements., Comment: 16 pages, 9 figures, accepted for publication in MNRAS. Data and associated information for the sample can be found at https://github.com/ZwickyTransientFacility/ztfcosmodr

Published
2021
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22. Measurement of the muon flux at the SND@LHC experiment

Author

Albanese, R., Alexandrov, A., Alicante, F., Anokhina, A., Asada, T., Battilana, C., Bay, A., Betancourt, C., Bick, D., Biswas, R., Castro, A. Blanco, Boccia, V., Bogomilov, M., Bonacorsi, D., Bonivento, W. M., Bordalo, P., Boyarsky, A., Buontempo, S., Campanelli, M., Camporesi, T., Canale, V., Castro, A., Centanni, D., Cerutti, F., Chernyavskiy, M., Choi, K. -Y., Cholak, S., Cindolo, F., Climescu, M., Conaboy, A. P., Dallavalle, G. M., Davino, D., de Bryas, P. T., De Lellis, G., De Magistris, M., De Roeck, A., De Rújula, A., De Serio, M., De Simone, D., Crescenzo, A. Di, Donà, R., Durhan, O., Fabbri, F., Fedotovs, F., Ferrillo, M., Ferro-Luzzi, M., Fini, R. A., Fiorillo, A., Fresa, R., Funk, W., Walls, F. M. Garay, Golovatiuk, A., Golutvin, A., Graverini, E., Guler, A. M., Guliaeva, V., Haefeli, G. J., Hagner, C., Herrera, J. C. Helo, van Herwijnen, E., Iengo, P., Ilieva, S., Infantino, A., Iuliano, A., Jacobsson, R., Kamiscioglu, C., Kauniskangas, A. M., Khalikov, E., Kim, S. H., Kim, Y. G., Klioutchnikov, G., Komatsu, M., Konovalova, N., Kuleshov, S., Lacker, H. M., Lantwin, O., Manghi, F. Lasagni, Lauria, A., Lee, K. Y., Lee, K. S., Meo, S. Lo, Loschiavo, V. P., Marcellini, S., Margiotta, A., Mascellani, A., Miano, A., Mikulenko, A., Montesi, M. C., Navarria, F. L., Ogawa, S., Okateva, N., Ovchynnikov, M., Paggi, G., Park, B. D., Pastore, A., Perrotta, A., Podgrudkov, D., Polukhina, N., Prota, A., Quercia, A., Ramos, S., Reghunath, A., Roganova, T., Ronchetti, F., Rovelli, T., Ruchayskiy, O., Ruf, T., Gilarte, M. Sabate, Sadykov, Z., Samoilov, M., Scalera, V., Schmidt-Parzefall, W., Schneider, O., Sekhniaidze, G., Serra, N., Shaposhnikov, M., Shevchenko, V., Shchedrina, T., Shchutska, L., Shibuya, H., Simone, S., Siroli, G. P., Sirri, G., Soares, G., Sohn, J. Y., Sandoval, O. J. Soto, Spurio, M., Starkov, N., Timiryasov, I., Tioukov, V., Tramontano, F., Trippl, C., Ursov, E., Ustyuzhanin, A., Vankova-Kirilova, G., Verguilov, V., Leonardo, N. Viegas Guerreiro, Vilela, C., Visone, C., Wanke, R., Yaman, E., Yazici, C., Yoon, C. S., Zaffaroni, E., and Saa, J. Zamora

Published
2024
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24. The Zwicky Transient Facility Type Ia supernova survey: first data release and results

Author

Dhawan, S, Goobar, A, Smith, M, Johansson, J, Rigault, M, Nordin, J, Biswas, R, Goldstein, D, Nugent, P, Kim, Y-L, Miller, AA, Graham, MJ, Medford, M, Kasliwal, MM, Kulkarni, SR, Duev, Dmitry A, Bellm, E, Rosnet, P, Riddle, R, and Sollerman, J

Subjects
surveys, supernovae: general, distance scale, Astronomical and Space Sciences, Astronomy & Astrophysics
Abstract

Type Ia supernovae (SNe Ia) in the nearby Hubble flow are excellent distance indicators in cosmology. The Zwicky Transient Facility (ZTF) has observed a large sample of SNe from an untargeted, rolling survey, reaching 20.8, 20.6, and 20.3 mag in g r, and i band, respectively. With an FoV of 47 deg2, ZTF discovered > 3000 SNe Ia in a little over 2.5 yr. Here, we report on the sample of 761 spectroscopically classified SNe Ia from the first year of operations (DR1). The sample has a median redshift $\bar{z} =$ 0.057, nearly a factor of 2 higher than the current low-z sample. Our sample has a total of 934 spectra, of which 632 were obtained with the robotic SEDm on Palomar P60. We assess the potential for precision cosmology for a total of 305 SNe with redshifts from host galaxy spectra. The sample is already comparable in size to the entire combined literature low-z anchor sample. The median first detection is 13.5 d before maximum light, about 10 d earlier than the median in the literature. Furthermore, six SNe from our sample are at DL < 80 Mpc, for which host galaxy distances can be obtained in the JAMES WEBB SPACE TELESCOPE era, such that we have calibrator and Hubble flow SNe observed with the same instrument. In the entire duration of ZTF-I, we have observed nearly 50 SNe for which we can obtain calibrator distances, key for per cent level distance scale measurements.

Published
2022

27. Results of the Photometric LSST Astronomical Time-series Classification Challenge (PLAsTiCC)

Author

Hložek, R., Ponder, K. A., Malz, A. I., Dai, M., Narayan, G., Ishida, E. E. O., Allam Jr, T., Bahmanyar, A., Biswas, R., Galbany, L., Jha, S. W., Jones, D. O., Kessler, R., Lochner, M., Mahabal, A. A., Mandel, K. S., Martínez-Galarza, J. R., McEwen, J. D., Muthukrishna, D., Peiris, H. V., Peters, C. M., and Setzer, C. N.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Next-generation surveys like the Legacy Survey of Space and Time (LSST) on the Vera C. Rubin Observatory will generate orders of magnitude more discoveries of transients and variable stars than previous surveys. To prepare for this data deluge, we developed the Photometric LSST Astronomical Time-series Classification Challenge (PLAsTiCC), a competition which aimed to catalyze the development of robust classifiers under LSST-like conditions of a non-representative training set for a large photometric test set of imbalanced classes. Over 1,000 teams participated in PLAsTiCC, which was hosted in the Kaggle data science competition platform between Sep 28, 2018 and Dec 17, 2018, ultimately identifying three winners in February 2019. Participants produced classifiers employing a diverse set of machine learning techniques including hybrid combinations and ensemble averages of a range of approaches, among them boosted decision trees, neural networks, and multi-layer perceptrons. The strong performance of the top three classifiers on Type Ia supernovae and kilonovae represent a major improvement over the current state-of-the-art within astronomy. This paper summarizes the most promising methods and evaluates their results in detail, highlighting future directions both for classifier development and simulation needs for a next generation PLAsTiCC data set., Comment: 20 pages, 14 figures

Published
2020

28. Cosmic ray flux and lockdown due to COVID19 in Kolkata -- any correlation?

Author

Sen, A., Chatterjee, S., Roy, S., Biswas, R., Das, S., Ghosh, S. K., and Biswas, S.

Subjects
High Energy Physics - Experiment, Astrophysics - High Energy Astrophysical Phenomena, Physics - Atmospheric and Oceanic Physics
Abstract

Cosmic ray muon flux is measured by the coincidence technique using plastic scintillation detectors in the High Energy Physics detector laboratory at Bose Institute, Kolkata. Due to the COVID19 outbreak and nationwide complete lockdown, the laboratory was closed from the end of March 2020 till the end of May 2020. After lockdown, although the city is not in its normal state, we still were able to take data on some days. The lockdown imposed a strict restriction on the transport service other than the emergency ones and also most of the industries were shut down in and around the city. This lockdown has significant effect on the atmospheric conditions in terms of change in the concentration of air pollutants. We have measured the cosmic ray flux before and after the lockdown to observe the apparent change if any due to change in the atmospheric conditions. In this article, we report the measured cosmic ray flux at Kolkata (22.58$^{\circ}$N 88.42$^{\circ}$E and 11~m Above Sea Level) along with the major air pollutants present in the atmosphere before and after the lockdown., Comment: 12 pages, 9 figures

Published
2020
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29. Quenching effect of oscillating potential on anisotropic resonant transmission through a phosphorene electrostatic barrier

Author

Biswas, R. and Sinha, C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The anisotropy in resonant tunneling transport through an electrostatic barrier in mono layer black phosphorus either in presence or in absence of an oscillating potential is studied. Non-perturbative Floquet theory is applied to solve the time dependent problem and the results obtained are discussed thoroughly. The resonance spectra in field free transmission are Lorentzian in nature although the width of the resonance for the barrier along the zigzag direction is too thinner than that for the armchair one. Resonant transmission is suppressed for both the cases by the application of oscillating potential that produces small oscillations in the transmission around the resonant energy particularly at low frequency range. Sharp asymmetric Fano resonances are noted in the transmission spectrum along the armchair direction while a distinct line shape resonance is noted for the zigzag direction at higher frequency of the oscillating potential. Even after the angular average, the conductance along the armchair direction retains the characteristic Fano features that could be observed experimentally. The present results are supposed to suggest that the phosphorene electrostatic barrier could be used successfully as switching devices and nano detectors., Comment: 26 pages and 8 figures

Published
2020

30. A Comment on 'The possible explanation of neutron lifetime beam anomaly' by A. P. Serebrov, et al

Author

Wietfeldt, F. E., Biswas, R., Haun, R. W., Dewey, M. S., Caylor, J., Fomin, N., Greene, G. L., Haddock, C. C., Hoogerheide, S. F., Mumm, H. P., Nico, J. S., Crawford, B., and Snow, W. M.

Subjects
Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

We comment on a recent manuscript by A. P. Serebrov, et al. regarding residual gas charge exchange in the beam neutron lifetime experiment

Published
2020

33. Atypical electrical behavior of few layered WS2 nanosheets based platform subject to heavy metal ion treatment

Author

Neog, A, Deb, S., and Biswas, R.

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

An atypical electrical behavior of WS2 nanosheets deposited on Cu electrodes is reported here. The characteristic Raman peaks at 355cm-1 and 421.8cm-1 confirm the few-layer structure of WS2. The addition of heavy metal ions of ~30 micro Liter on this platform results in non-ohmic behavior in I-V characteristics, accompanied by a dramatic rise of current from nA to micro Ampere Additionally, this atypical behavior is found to be reversible. Subsequent to removal of these ions from the nanosheets, it again exhibits normal ohmic I-V characteristics. It is envisioned that this unusual characteristic will pave way for more research in the sensing direction as well as relevant fields., Comment: 10 pages, 5 figures

Published
2019
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34. Influence of probe geometry of optical fibers in sensing volatile liquids through localized surface plasmon resonance

Author

Biswas, R., Paul, D., and Boruah, B. S.

Subjects
Physics - Applied Physics
Abstract

A comprehensive analysis of influence of probe geometry on localized surface plasmon resonance phenomenon is presented. Plasmonic responses of noble metal nanoparticles such as AuNPs and AgNPs have been exclusively examined by adopting D-type and tapered optical fiber probes for the detection of methanol. With increase in concentration of methanol, the effective refractive index of the medium changes which leads to alter absorbance characteristics of the NPs; thereby modulating the eventual output responses of the proposed sensor. A comparative study has been presented with respective change in geometrical shapes of the probes to detect methanol. The sensitivity in case of D-type probe for detection of methanol is found to be ~0.09644 mV/ppm with AuNPs and ~0.03038 mV/ppm with AgNPs. On the other hand, the sensitivity for AgNPs coated probe is found to be ~0.00389 mV/ppm and 0.00379 mV/ppm for AuNPs in case of tapered probe., Comment: 5 pages, 7 figures

Published
2019

35. Role of radon as a precursor to earthquakes:An appraisal

Author

Biswas, R.

Subjects
Physics - Geophysics, Nuclear Experiment
Abstract

Radon monitoring has recently gained extensive attention among seismologists. It is now widely reported as a precursssory signal prior to occurrence of a seismic event. The enhanced estimation of radon in soil gas is basically attributed to the strain changes which arise within the earth surface. In this chapter, the role of radon as a precurssor is eleborated, acompanied by the anomalies which come across during observation. Additionally, the recent studies done in Himalayan Belt is also reviewd along with future perspectives in radon estimation., Comment: 15, 2

Published
2019

36. Laser induced suppression of transmission in magnetically strained black phosphorus

Author

Biswas, R., Dey, R., and Sinha, C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Charge transport through a rectangular vector potential barrier modulated by a continuum laser in monolayer phosphorene is studied theoretically in the ballistic regime along the line of Floquet formalism. Laser free transmission profile displays strong directional behavior exhibiting collimation depending on the incident energy and width of the barrier. However, the application of laser, polarized along the zig-zag direction, creates a sharp anti-resonance in the transmission spectrum and reveals a strong light matter interaction due to broken symmetry in presence of the magnetic vector potential. Transmission properties through a vector barrier are found to be sensitive particularly for lower frequency and higher intensity of the laser. For a thin barrier, the laser assisted conductance is suppressed remarkably in contrast to its oscillatory nature for a thicker one., Comment: 18 pages including 5 figures

Published
2019

37. Inexpensive hetero-core spliced fiber optic setup for assessing strain

Author

Biswas, R.

Subjects
Physics - Instrumentation and Detectors, Physics - Optics
Abstract

We report here a novel experimental scheme for the measurement of strain that utilizes a simple intensity based interrogation system, based on optical fibers. Corresponding to splicing of a multimode fiber between two single mode fibers, the transmittance was measured by subjecting them to strain at multi points. The results corresponding to those multi points are found to mimic MMI interfere considerably. The set-up has the potential to be applied in crack propagation analysis., Comment: 9, 2

Published
2019

38. Models and Simulations for the Photometric LSST Astronomical Time Series Classification Challenge (PLAsTiCC)

Author

Kessler, R., Narayan, G., Avelino, A., Bachelet, E., Biswas, R., Brown, P. J., Chernoff, D. F., Connolly, A. J., Dai, M., Daniel, S., Di Stefano, R., Drout, M. R., Galbany, L., González-Gaitán, S., Graham, M. L., Hložek, R., Ishida, E. E. O., Guillochon, J., Jha, S. W., Jones, D. O., Mandel, K. S., Muthukrishna, D., O'Grady, A., Peters, C. M., Pierel, J. R., Ponder, K. A., Prša, A., Rodney, S., and Villar, V. A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We describe the simulated data sample for the "Photometric LSST Astronomical Time Series Classification Challenge" (PLAsTiCC), a publicly available challenge to classify transient and variable events that will be observed by the Large Synoptic Survey Telescope (LSST), a new facility expected to start in the early 2020s. The challenge was hosted by Kaggle, ran from 2018 September 28 to 2018 December 17, and included 1,094 teams competing for prizes. Here we provide details of the 18 transient and variable source models, which were not revealed until after the challenge, and release the model libraries at https://doi.org/10.5281/zenodo.2612896. We describe the LSST Operations Simulator used to predict realistic observing conditions, and we describe the publicly available SNANA simulation code used to transform the models into observed fluxes and uncertainties in the LSST passbands (ugrizy). Although PLAsTiCC has finished, the publicly available models and simulation tools are being used within the astronomy community to further improve classification, and to study contamination in photometrically identified samples of type Ia supernova used to measure properties of dark energy. Our simulation framework will continue serving as a platform to improve the PLAsTiCC models, and to develop new models.

Published
2019
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39. A next-generation LHC heavy-ion experiment

Author

Adamová, D., Rinella, G. Aglieri, Agnello, M., Ahammed, Z., Aleksandrov, D., Alici, A., Alkin, A., Alt, T., Altsybeev, I., Andreou, D., Andronic, A., Antinori, F., Antonioli, P., Appelshäuser, H., Arnaldi, R., Arsene, I. C., Arslandok, M., Averbeck, R., Azmi, M. D., Bai, X., Bailhache, R., Bala, R., Barioglio, L., Barnaföldi, G. G., Barnby, L. S., Bartalini, P., Barth, K., Basu, S., Becattini, F., Bedda, C., Belikov, I., Bellini, F., Bellwied, R., Beole, S., Bergmann, L., Bertens, R. A., Besoiu, M., Betev, L., Bhatti, A., Bianchi, A., Bianchi, L., Bielčík, J., Bielčíková, J., Bilandzic, A., Biswas, S., Biswas, R., Blau, D., Bock, F., Bombara, M., Borri, M., Braun-Munzinger, P., Bregant, M., Bruno, G. E., Buckland, M. D., Buesching, H., Bufalino, S., Buncic, P., Butt, J. B., Caliva, A., Camerini, P., Carnesecchi, F., Castellanos, J. Castillo, Catalano, F., Chapeland, S., Chartier, M., Cheshkov, C., Cheynis, B., Barroso, V. Chibante, Chinellato, D. D., Chochula, P., Chujo, T., Cicalo, C., Colamaria, F., Colella, D., Concas, M., del Valle, Z. Conesa, Contin, G., Contreras, J. G., Costa, F., Dönigus, B., Dahms, T., Dainese, A., Dainton, J., Danu, A., Das, S., Das, D., Dash, S., Dash, A., David, G., De Caro, A., de Cataldo, G., De Falco, A., De Marco, N., De Pasquale, S., Deb, S., Di Bari, D., Di Mauro, A., Dietel, T., Divià, R., Dmitrieva, U., Dobrin, A., Dubey, A. K., Dubla, A., Elia, D., Erazmus, B., Erokhin, A., Eulisse, G., Evans, D., Fabbietti, L., Faggin, M., Fecchio, P., Feliciello, A., Feofilov, G., Téllez, A. Fernández, Festanti, A., Floerchinger, S., Foka, P., Fokin, S., Franco, A., Furget, C., Furs, A., Gaardhøje, J., Gagliardi, M., Ganoti, P., Garabatos, C., Garcia-Solis, E., Gargiulo, C., Gasik, P., Ducati, M. B. Gay, Germain, M., Ghosh, P., Giubellino, P., Giubilato, P., Glässel, P., Gonzalez, V., Grachov, O., Grigoryan, A., Grigoryan, S., Grosa, F., Grosse-Oetringhaus, J. F., Guernane, R., Gunji, T., Gupta, R., Gupta, A., Habib, M. K., Hamagaki, H., Harris, J. W., Hatzifotiadou, D., Heckel, S. T., Hellbär, E., Helstrup, H., Herman, T., Hillemanns, H., Hills, C., Hippolyte, B., Hornung, S., Hristov, P., Iddon, J. P., Igolkin, S., Innocenti, G., Ippolitov, M., Ivanov, M., Jacholkowski, A., Jung, M., Jusko, A., Köhler, M. K., Kabana, S., Kalweit, A., Uysal, A. Karasu, Karavicheva, T., Kebschull, U., Keidel, R., Keil, M., Ketzer, B., Khan, S. A., Khanzadeev, A., Kharlov, Y., Khuntia, A., Kim, B., Kim, J., Kim, M., Klein, J., Klein, C., Klein-Bösing, C., Klewin, S., Kluge, A., Knichel, M. L., Kobdaj, C., Kofarago, M., Konopka, P. J., Kovalenko, V., Králik, I., Krüger, M., Kreis, L., Krivda, M., Krizek, F., Kroesen, M., Kryshen, E., Kučera, V., Kuhn, C., Kumar, L., Kundu, S., Kushpil, S., Kweon, M. J., Kwon, M., Kwon, Y., Lévai, P., La Pointe, S. L., Laudi, E., Lazareva, T., Lea, R., Leardini, L., Lee, S., Lemmon, R. C., Lietava, R., Lim, B., Lindenstruth, V., Lindner, A., Lippmann, C., Liu, J., Lopez, J. Lopez, Lourenco, C., Luparello, G., Mahmood, S. M., Maire, A., Manzari, V., Mao, Y., Marín, A., Marchisone, M., Margagliotti, G. V., Marquard, M., Martinengo, P., Masciocchi, S., Masera, M., Masson, E., Mastroserio, A., Mathis, A. M., Matyja, A., Mazzilli, M., Mazzoni, M. A., Micheletti, L., Mishra, A. N., Miskowiec, D., Mohanty, B., Khan, M. Mohisin, Morsch, A., Mrnjavac, T., Muccifora, V., Mühlheim, D., Muhuri, S., Mulligan, J. D., Munhoz, M. G., Munzer, R. H., Murakami, H., Musa, L., Naik, B., Nandi, B. K., Nania, R., Nayak, T. K., Nesterov, D., Nicosia, G., Nikolaev, S., Nikulin, V., Noferini, F., Norman, J., Nyanin, A., Okorokov, V., Oppedisano, C., Otwinowski, J., Oyama, K., Płoskoń, M., Pachmayer, Y., Pandey, A. K., Pastore, C., Pawlowski, J., Pei, H., Peitzmann, T., Peresunko, D., Petrovici, M., Pezzi, R. P., Piano, S., Prakasa, E., Prasad, S. K., Preghenella, R., Prino, F., Pruneau, C. A., Pshenichnov, I., Puccio, M., Pucek, J., Quercigh, E., Röhrich, D., Ramello, L., Rami, F., Raniwala, S., Raniwala, R., Rath, R., Ravasenga, I., Redelbach, A., Redlich, K., Reidt, F., Reygers, K., Riabov, V., Riedler, P., Riegler, W., Rischke, D., Ristea, C., Rode, S. P., Cahuantzi, M. Rodríguez, Rohr, D., Rossi, A., Rui, R., Rustamov, A., Rybicki, A., Šafařík, K., Sadikin, R., Sadovsky, S., Sahoo, R., Sahoo, P., Sahu, P. K., Saini, J., Samsonov, V., Sarma, P., Scheid, H. S., Schicker, R., Schmah, A., Schmidt, M. O., Schmidt, C., Schutz, Y., Schweda, K., Scomparin, E., Seger, J. E., Senyukov, S., Seryakov, A., Shahoyan, R., Sharma, N., Siddhanta, S., Siemiarczuk, T., Singh, R., Sitta, M., Soltveit, H., Spyropoulou-Stassinaki, M., Stachel, J., Sugitate, T., Sumowidagdo, S., Sun, X., Takahashi, J., Terrevoli, C., Toia, A., Topilskaya, N., Tripathy, S., Trogolo, S., Trubnikov, V., Trzaska, W. H., Trzeciak, B. A., Tveter, T. S., Uras, A., Usai, G. L., Valentino, G., van Doremalen, L. V. R., van Leeuwen, M., Vyvre, P. Vande, Vasileiou, M., Vechernin, V., Vermunt, L., Baillie, O. Villalobos, Virgili, T., Vodopyanov, A., Voloshin, S. A., Volpe, G., von Haller, B., Vorobyev, I., Wang, Y., Weber, M., Wegrzynek, A., Weiser, D. F., Wenzel, S. C., Wessels, J. P., Wiechula, J., Wiedemann, U., Wilkinson, J., Windelband, B., Winn, M., Xu, N., Yamakawa, K., Yin, Z., Yoo, I. -K., Yoon, J. H., Yuncu, A., Zaccolo, V., Zampolli, C., Zarochentsev, A., Zhang, B., Zhang, X., Zhao, C., Zherebchevskii, V., Zhou, D., Zhou, Y., and Zinovjev, G.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory
Abstract

The present document discusses plans for a compact, next-generation multi-purpose detector at the LHC as a follow-up to the present ALICE experiment. The aim is to build a nearly massless barrel detector consisting of truly cylindrical layers based on curved wafer-scale ultra-thin silicon sensors with MAPS technology, featuring an unprecedented low material budget of 0.05% X$_0$ per layer, with the innermost layers possibly positioned inside the beam pipe. In addition to superior tracking and vertexing capabilities over a wide momentum range down to a few tens of MeV/$c$, the detector will provide particle identification via time-of-flight determination with about 20~ps resolution. In addition, electron and photon identification will be performed in a separate shower detector. The proposed detector is conceived for studies of pp, pA and AA collisions at luminosities a factor of 20 to 50 times higher than possible with the upgraded ALICE detector, enabling a rich physics program ranging from measurements with electromagnetic probes at ultra-low transverse momenta to precision physics in the charm and beauty sector., Comment: Input to the 2020 Update of the European Particle Physics Strategy

Published
2019

40. ZTF Early Observations of Type Ia Supernovae. III. Early-time Colors As a Test for Explosion Models and Multiple Populations

Author

Bulla, M, Miller, AA, Yao, Y, Dessart, L, Dhawan, S, Papadogiannakis, S, Biswas, R, Goobar, A, Kulkarni, SR, Nordin, J, Nugent, P, Polin, A, Sollerman, J, Bellm, EC, Coughlin, MW, Dekany, R, Golkhou, VZ, Graham, MJ, Kasliwal, MM, Kupfer, T, Laher, RR, Masci, FJ, Porter, M, Rusholme, B, and Shupe, DL

Subjects
Surveys, Supernovae, Type Ia supernovae, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)
Abstract

Colors of Type Ia supernovae (SNe Ia) in the first few days after explosion provide a potential discriminant between different models. In this paper, we present g-r colors of 65 SNe Ia discovered within 5 days from first light by the Zwicky Transient Facility in 2018, a sample that is about three times larger than that in the literature. We find that g-r colors are intrinsically rather homogeneous at early phases, with about half of the dispersion attributable to photometric uncertainties (σnoise ∼ σ int ∼ 0.18 mag). Colors are nearly constant starting from 6 days after first light (g-r ∼-0.15 mag), while the time evolution at earlier epochs is characterized by a continuous range of slopes, from events rapidly transitioning from redder to bluer colors (slope of ∼-0.25 mag day-1) to events with a flatter evolution. The continuum in the slope distribution is in good agreement both with models requiring some amount of 56Ni mixed in the outermost regions of the ejecta and with "double-detonation"models having thin helium layers MHe=0.01 M⊙) and varying carbon-oxygen core masses. At the same time, six events show evidence for a distinctive "red bump"signature predicted by double-detonation models with larger helium masses. We finally identify a significant correlation between the early-time g-r slopes and supernova brightness, with brighter events associated to flatter color evolution (p-value = 0.006). The distribution of slopes, however, is consistent with being drawn from a single population, with no evidence for two components as claimed in the literature based on B-V colors.

Published
2020

41. Enabling Catalog Simulations of Transient and Variable Sources Based on LSST Cadence Strategies

Author

Biswas, R, Daniel, SF, Hložek, R, Kim, AG, and Yoachim, P

Subjects
Astronomical methods, Sky surveys, Time domain astronomy, Type Ia supernovae, Cosmology, astro-ph.IM, astro-ph.CO, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)
Abstract

The Large Synoptic Survey Telescope (LSST) project will conduct a 10 year multi-band survey starting in 2022. Observing strategies for this survey are being actively investigated, and the science capabilities can be best forecasted on the basis of simulated strategies from the LSST Operations Simulator (OpSim). OpSim simulates a stochastic realization of the sequence of LSST pointings over the survey duration, and is based on a model of the observatory (including telescope) and historical data of observational conditions. OpSim outputs contain a record of each simulated pointing of the survey along with a complete characterization of the pointing in terms of observing conditions, and some useful quantities derived from the characteristics of the pointing. Thus, each record can be efficiently used to derive the properties of observations of all astrophysical sources found in that pointing. However, in order to obtain the time series of observations (light curves) of a set of sources, it is often more convenient to compute all observations of an astrophysical source, and iterate over sources. In this document, we describe the open source python package OpSimSummary, which allows for a convenient reordering. The objectives of this package are to provide users with an Application Programming Interface for accessing all such observations and summarizing this information in the form of intermediate data products usable by third party software such as SNANA, thereby also bridging the gap between official LSST products and preexisting simulation codes.

Published
2020

44. The Photometric LSST Astronomical Time-series Classification Challenge (PLAsTiCC): Selection of a performance metric for classification probabilities balancing diverse science goals

Author

Malz, A. I., Hložek, R., Allam Jr, T., Bahmanyar, A., Biswas, R., Dai, M., Galbany, L., Ishida, E. E. O., Jha, S. W., Jones, D. O., Kessler, R., Lochner, M., Mahabal, A. A., Mandel, K. S., Martínez-Galarza, J. R., McEwen, J. D., Muthukrishna, D., Narayan, G., Peiris, H., Peters, C. M., Ponder, K. A., Setzer, C. N., Collaboration, The LSST Dark Energy Science, Transients, The LSST, and Collaboration, Variable Stars Science

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

Classification of transient and variable light curves is an essential step in using astronomical observations to develop an understanding of their underlying physical processes. However, upcoming deep photometric surveys, including the Large Synoptic Survey Telescope (LSST), will produce a deluge of low signal-to-noise data for which traditional labeling procedures are inappropriate. Probabilistic classification is more appropriate for the data but are incompatible with the traditional metrics used on deterministic classifications. Furthermore, large survey collaborations intend to use these classification probabilities for diverse science objectives, indicating a need for a metric that balances a variety of goals. We describe the process used to develop an optimal performance metric for an open classification challenge that seeks probabilistic classifications and must serve many scientific interests. The Photometric LSST Astronomical Time-series Classification Challenge (PLAsTiCC) is an open competition aiming to identify promising techniques for obtaining classification probabilities of transient and variable objects by engaging a broader community both within and outside astronomy. Using mock classification probability submissions emulating archetypes of those anticipated of PLAsTiCC, we compare the sensitivity of metrics of classification probabilities under various weighting schemes, finding that they yield qualitatively consistent results. We choose as a metric for PLAsTiCC a weighted modification of the cross-entropy because it can be meaningfully interpreted. Finally, we propose extensions of our methodology to ever more complex challenge goals and suggest some guiding principles for approaching the choice of a metric of probabilistic classifications.

Published
2018
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46. GROWTH on S190425z: Searching Thousands of Square Degrees to Identify an Optical or Infrared Counterpart to a Binary Neutron Star Merger with the Zwicky Transient Facility and Palomar Gattini-IR

Author

Coughlin, MW, Ahumada, T, Anand, S, De, K, Hankins, MJ, Kasliwal, MM, Singer, LP, Bellm, EC, Andreoni, I, Cenko, SB, Cooke, J, Copperwheat, CM, Dugas, AM, Jencson, JE, Perley, DA, Yu, PC, Bhalerao, V, Kumar, H, Bloom, JS, Anupama, GC, Ashley, MCB, Bagdasaryan, A, Biswas, R, Buckley, DAH, Burdge, KB, Cook, DO, Cromer, J, Cunningham, V, D'A, A, Dekany, RG, Delacroix, A, Dichiara, S, Duev, DA, Dutta, A, Feeney, M, Frederick, S, Gatkine, P, Ghosh, S, Goldstein, DA, Golkhou, VZ, Goobar, A, Graham, MJ, Hanayama, H, Horiuchi, T, Hung, T, Jha, SW, Kong, AKH, Giomi, M, Kaplan, DL, Karambelkar, VR, Kowalski, M, Kulkarni, SR, Kupfer, T, Masci, FJ, Mazzali, P, Moore, AM, Mogotsi, M, Neill, JD, Ngeow, CC, Martínez-Palomera, J, Parola, VL, Pavana, M, Ofek, EO, Patil, AS, Riddle, R, Rigault, M, Rusholme, B, Serabyn, E, Shupe, DL, Sharma, Y, Singh, A, Sollerman, J, Soon, J, Staats, K, Taggart, K, Tan, H, Travouillon, T, Troja, E, Waratkar, G, and Yatsu, Y

Subjects
Gravitational wave astronomy, Transient detection, Optical telescopes, Astronomy & Astrophysics, Astronomical and Space Sciences
Abstract

The third observing run by LVC has brought the discovery of many compact binary coalescences. Following the detection of the first binary neutron star merger in this run (LIGO/Virgo S190425z), we performed a dedicated follow-up campaign with the Zwicky Transient Facility (ZTF) and Palomar Gattini-IR telescopes. The initial skymap of this single-detector gravitational wave (GW) trigger spanned most of the sky observable from Palomar Observatory. Covering 8000 deg2 of the initial skymap over the next two nights, corresponding to 46% integrated probability, ZTF system achieved a depth of ≈21 m AB in g-and r-bands. Palomar Gattini-IR covered 2200 square degrees in J-band to a depth of 15.5 mag, including 32% integrated probability based on the initial skymap. The revised skymap issued the following day reduced these numbers to 21% for the ZTF and 19% for Palomar Gattini-IR. We narrowed 338,646 ZTF transient "alerts" over the first two nights of observations to 15 candidate counterparts. Two candidates, ZTF19aarykkb and ZTF19aarzaod, were particularly compelling given that their location, distance, and age were consistent with the GW event, and their early optical light curves were photometrically consistent with that of kilonovae. These two candidates were spectroscopically classified as young core-collapse supernovae. The remaining candidates were ruled out as supernovae. Palomar Gattini-IR did not identify any viable candidates with multiple detections only after merger time. We demonstrate that even with single-detector GW events localized to thousands of square degrees, systematic kilonova discovery is feasible.

Published
2019

47. The zwicky transient facility: Science objectives

Author

Graham, MJ, Kulkarni, SR, Bellm, EC, Adams, SM, Barbarino, C, Blagorodnova, N, Bodewits, D, Bolin, B, Brady, PR, Cenko, SB, Chang, CK, Coughlin, MW, Kishalay De, K, Eadie, G, Farnham, TL, Feindt, U, Franckowiak, A, Fremling, C, Gezari, S, Ghosh, S, Goldstein, DA, Golkhou, VZ, Goobar, A, Ho, AYQ, Huppenkothen, D, Ivezić, Ž, Jones, RL, Juric, M, Kaplan, DL, Kasliwal, MM, Kelley, MSP, Kupfer, T, Lee, CD, Lin, HW, Lunnan, R, Mahabal, AA, Miller, AA, Ngeow, CC, Nugent, P, Ofek, EO, Prince, TA, Rauch, L, Van Roestel, J, Schulze, S, Singer, LP, Sollerman, J, Taddia, F, Yan, L, Ye, QZ, Yu, PC, Barlow, T, Bauer, J, Beck, R, Belicki, J, Biswas, R, Brinnel, V, Brooke, T, Bue, B, Bulla, M, Burruss, R, Connolly, A, Cromer, J, Cunningham, V, Dekany, R, Delacroix, A, Desai, V, Duev, DA, Feeney, M, Flynn, D, Frederick, S, Gal-Yam, A, Giomi, M, Groom, S, Hacopians, E, Hale, D, Helou, G, Henning, J, Hover, D, Hillenbrand, LA, Howell, J, Hung, T, Imel, D, Ip, WH, Jackson, E, Kaspi, S, Kaye, S, Kowalski, M, Kramer, E, Kuhn, M, Landry, W, Laher, RR, Mao, P, Masci, FJ, Monkewitz, S, Murphy, P, Nordin, J, Patterson, MT, Penprase, B, Porter, M, and Rebbapragada, U

Subjects
(stars:) supernovae: general, surveys, (galaxies:) quasars: general, astro-ph.IM, astro-ph.HE, Astronomy & Astrophysics, Astronomical and Space Sciences
Abstract

The Zwicky Transient Facility (ZTF), a public–private enterprise, is a new time-domain survey employing a dedicated camera on the Palomar 48-inch Schmidt telescope with a 47 deg2 field of view and an 8 second readout time. It is well positioned in the development of time-domain astronomy, offering operations at 10% of the scale and style of the Large Synoptic Survey Telescope (LSST) with a single 1-m class survey telescope. The public surveys will cover the observable northern sky every three nights in g and r filters and the visible Galactic plane every night in g and r. Alerts generated by these surveys are sent in real time to brokers. A consortium of universities that provided funding (“partnership”) are undertaking several boutique surveys. The combination of these surveys producing one million alerts per night allows for exploration of transient and variable astrophysical phenomena brighter than r∼20.5 on timescales of minutes to years. We describe the primary science objectives driving ZTF, including the physics of supernovae and relativistic explosions, multi-messenger astrophysics, supernova cosmology, active galactic nuclei, and tidal disruption events, stellar variability, and solar system objects.

Published
2019

48. LSST: From Science Drivers to Reference Design and Anticipated Data Products

Author

Ivezić, Ž, Kahn, SM, Tyson, JA, Abel, B, Acosta, E, Allsman, R, Alonso, D, Alsayyad, Y, Anderson, SF, Andrew, J, Angel, JRP, Angeli, GZ, Ansari, R, Antilogus, P, Araujo, C, Armstrong, R, Arndt, KT, Astier, P, Aubourg, E, Auza, N, Axelrod, TS, Bard, DJ, Barr, JD, Barrau, A, Bartlett, JG, Bauer, AE, Bauman, BJ, Baumont, S, Bechtol, E, Bechtol, K, Becker, AC, Becla, J, Beldica, C, Bellavia, S, Bianco, FB, Biswas, R, Blanc, G, Blazek, J, Blandford, RD, Bloom, JS, Bogart, J, Bond, TW, Booth, MT, Borgland, AW, Borne, K, Bosch, JF, Boutigny, D, Brackett, CA, Bradshaw, A, Brandt, WN, Brown, ME, Bullock, JS, Burchat, P, Burke, DL, Cagnoli, G, Calabrese, D, Callahan, S, Callen, AL, Carlin, JL, Carlson, EL, Chandrasekharan, S, Charles-Emerson, G, Chesley, S, Cheu, EC, Chiang, HF, Chiang, J, Chirino, C, Chow, D, Ciardi, DR, Claver, CF, Cohen-Tanugi, J, Cockrum, JJ, Coles, R, Connolly, AJ, Cook, KH, Cooray, A, Covey, KR, Cribbs, C, Cui, W, Cutri, R, Daly, PN, Daniel, SF, Daruich, F, Daubard, G, Daues, G, Dawson, W, Delgado, F, Dellapenna, A, Peyster, RD, Val-Borro, MD, Digel, SW, Doherty, P, Dubois, R, Dubois-Felsmann, GP, Durech, J, Economou, F, Eifler, T, Eracleous, M, Emmons, BL, and Neto, AF

Subjects
astrometry, cosmology: observations, Galaxy: general, methods: observational, stars: general, surveys, astro-ph, Astronomical and Space Sciences, Organic Chemistry, Physical Chemistry, Astronomy & Astrophysics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)
Abstract

We describe here the most ambitious survey currently planned in the optical, the Large Synoptic Survey Telescope (LSST). The LSST design is driven by four main science themes: probing dark energy and dark matter, taking an inventory of the solar system, exploring the transient optical sky, and mapping the Milky Way. LSST will be a large, wide-field ground-based system designed to obtain repeated images covering the sky visible from Cerro Pachón in northern Chile. The telescope will have an 8.4 m (6.5 m effective) primary mirror, a 9.6 deg 2 field of view, a 3.2-gigapixel camera, and six filters (ugrizy) covering the wavelength range 320-1050 nm. The project is in the construction phase and will begin regular survey operations by 2022. About 90% of the observing time will be devoted to a deep-wide-fast survey mode that will uniformly observe a 18,000 deg 2 region about 800 times (summed over all six bands) during the anticipated 10 yr of operations and will yield a co-added map to r ∼27.5. These data will result in databases including about 32 trillion observations of 20 billion galaxies and a similar number of stars, and they will serve the majority of the primary science programs. The remaining 10% of the observing time will be allocated to special projects such as Very Deep and Very Fast time domain surveys, whose details are currently under discussion. We illustrate how the LSST science drivers led to these choices of system parameters, and we describe the expected data products and their characteristics.

Published
2019

49. Relative particle yield fluctuations in Pb--Pb collisions at sNN=2.76TeV

Author

Acharya, S, Adamová, D, Adolfsson, J, Aggarwal, MM, Aglieri Rinella, G, Agnello, M, Agrawal, N, Ahammed, Z, Ahn, SU, Aiola, S, Akindinov, A, Al-Turany, M, Alam, SN, Albuquerque, DSD, Aleksandrov, D, Alessandro, B, Molina, R Alfaro, Ali, Y, Alici, A, Alkin, A, Alme, J, Alt, T, Altenkamper, L, Altsybeev, I, Prado, C Alves Garcia, Andrei, C, Andreou, D, Andrews, HA, Andronic, A, Anguelov, V, Anson, C, Antičić, T, Antinori, F, Antonioli, P, Aphecetche, L, Appelshäuser, H, Arcelli, S, Arnaldi, R, Arnold, OW, Arsene, IC, Arslandok, M, Audurier, B, Augustinus, A, Averbeck, R, Azmi, MD, Badalà, A, Baek, YW, Bagnasco, S, Bailhache, R, Bala, R, Baldisseri, A, Ball, M, Baral, RC, Barbano, AM, Barbera, R, Barile, F, Barioglio, L, Barnaföldi, GG, Barnby, LS, Barret, V, Bartalini, P, Barth, K, Bartsch, E, Bastid, N, Basu, S, Batigne, G, Batyunya, B, Batzing, PC, BazoAlba, JL, Bearden, IG, Beck, H, Bedda, C, Behera, NK, Belikov, I, Bellini, F, Bello Martinez, H, Bellwied, R, Beltran, LGE, Belyaev, V, Bencedi, G, Beole, S, Bercuci, A, Berdnikov, Y, Berenyi, D, Bertens, RA, Berzano, D, Betev, L, Bhasin, A, Bhat, IR, Bhattacharjee, B, Bhom, J, Bianchi, A, Bianchi, L, Bianchi, N, Bianchin, C, Bielčík, J, Bielčíková, J, Bilandzic, A, Biro, G, and Biswas, R

Subjects
Nuclear and Plasma Physics, Particle and High Energy Physics, Physical Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Quantum Physics, Nuclear & Particles Physics, Astronomical sciences, Atomic, molecular and optical physics, Particle and high energy physics
Abstract

First results on K / π, p / π and K/p fluctuations are obtained with the ALICE detector at the CERN LHC as a function of centrality in Pb--Pb collisions at sNN=2.76TeV. The observable ν dyn , which is defined in terms of the moments of particle multiplicity distributions, is used to quantify the magnitude of dynamical fluctuations of relative particle yields and also provides insight into the correlation between particle pairs. This study is based on a novel experimental technique, called the Identity Method, which allows one to measure the moments of multiplicity distributions in case of incomplete particle identification. The results for p / π show a change of sign in ν dyn from positive to negative towards more peripheral collisions. For central collisions, the results follow the smooth trend of the data at lower energies and ν dyn exhibits a change in sign for p / π and K/p.

Published
2019

50. Machine learning for the Zwicky transient facility

Author

Mahabal, A, Rebbapragada, U, Walters, R, Masci, FJ, Blagorodnova, N, van Roestel, J, Ye, QZ, Biswas, R, Burdge, K, Chang, CK, Duev, DA, Zach Golkhou, V, Miller, AA, Nordin, J, Ward, C, Adams, S, Bellm, EC, Branton, D, Bue, B, Cannella, C, Connolly, A, Dekany, R, Feindt, U, Hung, T, Fortson, L, Frederick, S, Fremling, C, Gezari, S, Graham, M, Groom, S, Kasliwal, MM, Kulkarni, S, Kupfer, T, Lin, HW, Lintott, C, Lunnan, R, Parejko, J, Prince, TA, Riddle, R, Rusholme, B, Saunders, N, Sedaghat, N, Shupe, DL, Singer, LP, Soumagnac, MT, Szkody, P, Tachibana, Y, Tirumala, K, van Velzen, S, and Wright, D

Subjects
Machine Learning, Sky Surveys, Time Domain, astro-ph.IM, Astronomical and Space Sciences, Astronomy & Astrophysics
Abstract

The Zwicky Transient Facility is a large optical survey in multiple filters producing hundreds of thousands of transient alerts per night. We describe here various machine learning (ML) implementations and plans to make the maximal use of the large data set by taking advantage of the temporal nature of the data, and further combining it with other data sets. We start with the initial steps of separating bogus candidates from real ones, separating stars and galaxies, and go on to the classification of real objects into various classes. Besides the usual methods (e.g., based on features extracted from light curves) we also describe early plans for alternate methods including the use of domain adaptation, and deep learning. In a similar fashion we describe efforts to detect fast moving asteroids. We also describe the use of the Zooniverse platform for helping with classifications through the creation of training samples, and active learning. Finally we mention the synergistic aspects of ZTF and LSST from the ML perspective.

Published
2019

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