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5. Bidirectional cascaded superfluorescent lasing in air enabled by resonant third harmonic photon exchange from nitrogen to argon

Author

Nie, Zan, Nambu, Noa, Marsh, Kenneth A., Matteo, Daniel, Patel, C. Kumar, Zhang, Chaojie, Wu, Yipeng, Carlström, Stefanos, Morales, Felipe, Patchkovskii, Serguei, Smirnova, Olga, Ivanov, Misha, and Joshi, Chan

Subjects
Physics - Optics, Physics - Atomic Physics
Abstract

Cavity-free lasing in atmospheric air has stimulated intense research towards fundamental understanding of underlying physical mechanisms. In this Letter, we identify a new mechanism -- third harmonic photon mediated resonant energy transfer pathway leading to population inversion in argon via initial three-photon excitation of nitrogen molecules irradiated by intense 261 nm pulses -- that enables bidirectional two-color cascaded lasing in atmospheric air. By making pump-probe measurements, we conclusively show that such cascaded lasing results from superfluorescence (SF) rather than amplified spontaneous emission (ASE). Such cascaded lasing with the capability of producing bidirectional multicolor coherent pulses opens additional possibilities for remote sensing applications., Comment: 4 figures

Published
2024

12. Revealing the Dynamic Magneto-ionic Environments of Repeating Fast Radio Burst Sources through Multi-year Polarimetric Monitoring with CHIME/FRB

Author

Mckinven, R., Gaensler, B. M., Michilli, D., Masui, K., Kaspi, V. M., Su, J., Bhardwaj, M., Cassanelli, T., Chawla, P., Dong, Fonseca, E., Leung, C., Petroff, E., Pleunis, Z., Rafiei-Ravandi, M., Stairs, I. H., Tendulkar, S., Li, D. Z., Ng, C., Patel, C., Pearlman, A. B., Rahman, M., Sand, K. R., and Shin, K.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Fast radio bursts (FRBs) display a confounding variety of burst properties and host galaxy associations. Repeating FRBs offer insight into the FRB population by enabling spectral, temporal and polarimetric properties to be tracked over time. Here, we report on the polarized observations of 12 repeating sources using multi-year monitoring with the Canadian Hydrogen Intensity Mapping Experiment (CHIME) over 400-800 MHz. We observe significant RM variations from many sources in our sample, including RM changes of several hundred $\rm{rad\, m^{-2}}$ over month timescales from FRBs 20181119A, 20190303A and 20190417A, and more modest RM variability ($\rm{\Delta RM \lesssim}$ few tens rad m$^{-2}$) from FRBs 20181030A, 20190208A, 20190213B and 20190117A over equivalent timescales. Several repeaters display a frequency dependent degree of linear polarization that is consistent with depolarization via scattering. Combining our measurements of RM variations with equivalent constraints on DM variability, we estimate the average line-of-sight magnetic field strength in the local environment of each repeater. In general, repeating FRBs display RM variations that are more prevalent/extreme than those seen from radio pulsars in the Milky Way and the Magellanic Clouds, suggesting repeating FRBs and pulsars occupy distinct magneto-ionic environments.

Published
2023
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18. A Large Scale Magneto-ionic Fluctuation in the Local Environment of Periodic Fast Radio Burst Source, FRB 20180916B

Author

Mckinven, R., Gaensler, B. M., Michilli, D., Masui, K., Kaspi, V. M., Bhardwaj, M., Cassanelli, T., Chawla, P., Dong, F. Adam, Fonseca, E., Leung, C., Li, D. Z., Ng, C., Patel, C., Petroff, E., Pearlman, A. B., Pleunis, Z., Rafiei-Ravandi, M., Rahman, M., Sand, K. R., Shin, K., Scholz, P., Stairs, I. H., Smith, K., Su, J., and Tendulkar, S.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Fast radio burst (FRB) source 20180916B exhibits a 16.33-day periodicity in its burst activity. It is as of yet unclear what proposed mechanism produces the activity, but polarization information is a key diagnostic. Here, we report on the polarization properties of 44 bursts from FRB 20180916B detected between 2018 December and 2021 December by CHIME/FRB, the FRB project on the Canadian Hydrogen Intensity Mapping Experiment the Canadian Hydrogen Intensity Mapping Experiment. In contrast to previous observations, we find significant variations in the Faraday rotation measure (RM) of FRB 20180916B. Over the nine month period 2021 April$-$2021 December we observe an apparent secular increase in $\rm{RM}$ of $\sim 50 \; \rm{rad\, m^{-2}}$ (a fractional change of over $40\%$) that is accompanied by a possible drift of the emitting band to lower frequencies. This interval displays very little variation in the dispersion measure ($\Delta \rm{DM}\lesssim 0.8\; \rm{pc\, cm^{-3}}$) which indicates that the observed RM evolution is likely produced from coherent changes in the Faraday-active medium's magnetic field. Burst-to-burst RM variations appear unrelated to the activity cycle phase. The degree of linear polarization of our burst sample ($\gtrsim 80\%$) is consistent with the negligible depolarization expected for this source in the 400-800 MHz bandpass of CHIME. FRB 20180916B joins other repeating FRBs in displaying substantial RM variations between bursts. This is consistent with the notion that repeater progenitors may be associated with young stellar populations by their preferential occupation of dynamic magnetized environments commonly found in supernova remnants, pulsar wind nebulae or near high mass stellar companions.

Published
2022
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19. Asteroid Measurements at Millimeter Wavelengths with the South Pole Telescope

Author

Chichura, P. M., Foster, A., Patel, C., Ossa-Jaen, N., Ade, P. A. R., Ahmed, Z., Anderson, A. J., Archipley, M., Austermann, J. E., Avva, J. S., Balkenhol, L., Barry, P. S., Thakur, R. Basu, Beall, J. A., Benabed, K., Bender, A. N., Benson, B. A., Bianchini, F., Bleem, L. E., Bouchet, F. R., Bryant, L., Byrum, K., Carlstrom, J. E., Carter, F. W., Cecil, T. W., Chang, C. L., Chaubal, P., Chen, G., Chiang, H. C., Cho, H. -M., Chou, T-L., Citron, R., Cliche, J. -F., Crawford, T. M., Crites, A. T., Cukierman, A., Daley, C. M., Denison, E. V., Dibert, K., Ding, J., Dobbs, M. A., Dutcher, D., Everett, W., Feng, C., Ferguson, K. R., Fu, J., Galli, S., Gallicchio, J., Gambrel, A. E., Gardner, R. W., George, E. M., Goeckner-Wald, N., Gualtieri, R., Guns, S., Gupta, N., Guyser, R., de Haan, T., Halverson, N. W., Harke-Hosemann, A. H., Harrington, N. L., Henning, J. W., Hilton, G. C., Hivon, E., Holder, G. P., Holzapfel, W. L., Hood, J. C., Howe, D., Hrubes, J. D., Huang, N., Hubmayr, J., Irwin, K. D., Jeong, O. B., Jonas, M., Jones, A., Khaire, T. S., Knox, L., Kofman, A. M., Korman, M., Kubik, D. L., Kuhlmann, S., Kuo, C. -L., Lee, A. T., Leitch, E. M., Li, D., Lowitz, A., Lu, C., Marrone, D. P., McMahon, J. J., Meyer, S. S., Michalik, D., Millea, M., Mocanu, L. M., Montgomery, J., Moran, C. Corbett, Nadolski, A., Natoli, T., Nguyen, H., Nibarger, J. P., Noble, G., Novosad, V., Omori, Y., Padin, S., Pan, Z., Paschos, P., Patil, S., Pearson, J., Phadke, K. A., Posada, C. M., Prabhu, K., Pryke, C., Quan, W., Rahlin, A., Reichardt, C. L., Riebel, D., Riedel, B., Rouble, M., Ruhl, J. E., Saliwanchik, B. R., Sayre, J. T., Schaffer, K. K., Schiappucci, E., Shirokoff, E., Sievers, C., Smecher, G., Sobrin, J. A., Springmann, A., Stark, A. A., Stephen, J., Story, K. T., Suzuki, A., Tandoi, C., Thompson, K. L., Thorne, B., Tucker, C., Umilta, C., Vale, L. R., Veach, T., Vieira, J. D., Wang, G., Whitehorn, N., Wu, W. L. K., Yefremenko, V., Yoon, K. W., and Young, M. R.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present the first measurements of asteroids in millimeter wavelength (mm) data from the South Pole Telescope (SPT), which is used primarily to study the cosmic microwave background (CMB). We analyze maps of two $\sim270$ deg$^2$ sky regions near the ecliptic plane, each observed with the SPTpol camera $\sim100$ times over one month. We subtract the mean of all maps of a given field, removing static sky signal, and then average the mean-subtracted maps at known asteroid locations. We detect three asteroids$\text{ -- }$(324) Bamberga, (13) Egeria, and (22) Kalliope$\text{ -- }$with signal-to-noise ratios (S/N) of 11.2, 10.4, and 6.1, respectively, at 2.0 mm (150 GHz); we also detect (324) Bamberga with S/N of 4.1 at 3.2 mm (95 GHz). We place constraints on these asteroids' effective emissivities, brightness temperatures, and light curve modulation amplitude. Our flux density measurements of (324) Bamberga and (13) Egeria roughly agree with predictions, while our measurements of (22) Kalliope suggest lower flux, corresponding to effective emissivities of $0.66 \pm 0.11$ at 2.0 mm and $<0.47$ at 3.2mm. We predict the asteroids detectable in other SPT datasets and find good agreement with detections of (772) Tanete and (1093) Freda in recent data from the SPT-3G camera, which has $\sim10 \times$ the mapping speed of SPTpol. This work is the first focused analysis of asteroids in data from CMB surveys, and it demonstrates we can repurpose historic and future datasets for asteroid studies. Future SPT measurements can help constrain the distribution of surface properties over a larger asteroid population., Comment: 21 pages, 9 figures

Published
2022
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21. Study of 72 pulsars discovered in the PALFA survey: Timing analysis, glitch activity, emission variability, and a pulsar in an eccentric binary

Author

Parent, E., Sewalls, H., Freire, P. C. C., Matheny, T., Lyne, A. G., Perera, B. B. P., Cardoso, F., McLaughlin, M. A., Allen, B., Brazier, A., Camilo, F., Chatterjee, S., Cordes, J. M., Crawford, F., Deneva, J. S., Dong, F. A., Ferdman, R. D., Fonseca, E., Hessels, J. W. T., Kaspi, V. M., Knispel, B., van Leeuwen, J., Lynch, R. S., Meyers, B. M., McKee, J. W., Mickaliger, M. B., Patel, C., Ransom, S. M., Rochon, A., Scholz, P., Stairs, I. H., Stappers, B. W., Tan, C. M., and Zhu, W. W.

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

We present new discoveries and results from long-term timing of 72 pulsars discovered in the Arecibo PALFA survey, including precise determination of astrometric and spin parameters, and flux density and scatter broadening measurements at 1.4 GHz. Notable discoveries include two young pulsars (characteristic ages $\sim$30 kyr) with no apparent supernova remnant associations, three mode changing, 12 nulling and two intermittent pulsars. We detected eight glitches in five pulsars. Among them is PSR J1939+2609, an apparently old pulsar (characteristic age $\sim$1 Gy), and PSR J1954+2529, which likely belongs to a newly-emerging class of binary pulsars. The latter is the only pulsar among the 72 that is clearly not isolated: a non-recycled neutron star with a 931-ms spin period in an eccentric ($e\,=\,0.114$) wide ($P_b\,=\,82.7\,$d) orbit with a companion of undetermined nature having a minimum mass of $\sim0.6\,M_{\odot}$. Since operations at Arecibo ceased in 2020 August, we give a final tally of PALFA sky coverage, and compare its 207 pulsar discoveries to the known population. On average, they are 50% more distant than other Galactic plane radio pulsars; PALFA millisecond pulsars (MSP) have twice the dispersion measure per unit spin period than the known population of MSP in the Plane. The four intermittent pulsars discovered by PALFA more than double the population of such objects, which should help to improve our understanding of pulsar magnetosphere physics. The statistics for these, RRATS, and nulling pulsars suggest that there are many more of these objects in the Galaxy than was previously thought., Comment: 39 pages, 18 figures, 9 tables. Accepted for publication in ApJ

Published
2021
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22. Modeling Fast Radio Burst Dispersion and Scattering Properties in the First CHIME/FRB Catalog

Author

Chawla, P., Kaspi, V. M., Ransom, S. M., Bhardwaj, M., Boyle, P. J., Breitman, D., Cassanelli, T., Cubranic, D., Dong, F. Q., Fonseca, E., Gaensler, B. M., Giri, U., Josephy, A., Kaczmarek, J. F., Leung, C., Masui, K. W., Mena-Parra, J., Merryfield, M., Michilli, D., Münchmeyer, M., Ng, C., Patel, C., Pearlman, A. B., Petroff, E., Pleunis, Z., Rahman, M., Sanghavi, P., Shin, K., Smith, K. M., Stairs, I., and Tendulkar, S. P.

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

We present a Monte Carlo-based population synthesis study of fast radio burst (FRB) dispersion and scattering focusing on the first catalog of sources detected with the Canadian Hydrogen Intensity Mapping Experiment Fast Radio Burst (CHIME/FRB) project. We simulate intrinsic properties and propagation effects for a variety of FRB population models and compare the simulated distributions of dispersion measures (DMs) and scattering timescales with the corresponding distributions from the CHIME/FRB catalog. Our simulations confirm the results of previous population studies, which suggested that the interstellar medium of the host galaxy alone (simulated based on the NE2001 model) cannot explain the observed scattering timescales of FRBs. We therefore consider additional sources of scattering, namely, the circumgalactic medium (CGM) of intervening galaxies and the circumburst medium whose properties are modeled based on typical Galactic plane environments. We find that a population of FRBs with scattering contributed by these media is marginally consistent with the CHIME/FRB catalog. In this scenario, our simulations favor a population of FRBs offset from their galaxy centers over a population which is distributed along the spiral arms. However, if the models proposing the CGM as a source of intense scattering are incorrect, then we conclude that FRBs may inhabit environments with more extreme properties than those inferred for pulsars in the Milky Way., Comment: Accepted for publication in ApJ

Published
2021
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23. Cardiovascular Outcomes in GRADE (Glycemia Reduction Approaches in Type 2 Diabetes: A Comparative Effectiveness Study)

Author

Green, Jennifer B., Everett, Brendan M., Ghosh, Alokananda, Younes, Naji, Krause-Steinrauf, Heidi, Barzilay, Joshua, Desouza, Cyrus, Inzucchi, Silvio E., Pokharel, Yashashwi, Schade, David, Scrymgeour, Alexandra, Tan, Meng H., Utzschneider, Kristina M., Mudaliar, Sunder, Crandall, J.P., McKee, M.D., Behringer-Massera, S., Brown-Friday, J., Xhori, E., Ballentine-Cargill, K., Duran, S., Estrella, H., Gonzalez de la Torre, S., Lukin, J., Phillips, L.S., Burgess, E., Olson, D., Rhee, M., Wilson, P., Raines, T.S., Boers, J., Costello, J., Maher-Albertelli, M., Mungara, R., Savoye, L., White, C.A., Gullett, C., Holloway, L., Morehead, F., Person, S., Sibymon, M., Tanukonda, S., Adams, C., Ross, A., Balasubramanyam, A., Gaba, R., Gonzalez Hattery, E., Ideozu, A., Jimenez, J., Montes, G., Wright, C., Hollander, P., Roe, E., Jackson, A., Smiley, A., Burt, P., Estrada, L., Chionh, K., Ismail-Beigi, F., Falck-Ytter, C., Sayyed Kassem, L., Sood, A., Tiktin, M., Kulow, T., Newman, C., Stancil, K.A., Cramer, B., Iacoboni, J., Kononets, M.V., Sanders, C., Tucker, L., Werner, A., Maxwell, A., McPhee, G., Patel, C., Colosimo, L., Krol, A., Goland, R., Pring, J., Alfano, L., Kringas, P., Hausheer, C., Tejada, J., Gumpel, K., Kirpitch, A., Schneier, H., AbouAssi, H., Chatterjee, R., Feinglos, M.N., English Jones, J., Khan, S.A., Kimpel, J.B., Zimmer, R.P., Furst, M., Satterwhite, B.M., Thacker, C.R., Evans Kreider, K., Mariash, C.N., Mather, K.J., Ismail, H.M., Lteif, A., Mullen, M., Hamilton, T., Patel, N., Riera, G., Jackson, M., Pirics, V., Aguillar, D., Howard, D., Hurt, S., Bergenstal, R., Carlson, A., Martens, T., Johnson, M., Hill, R., Hyatt, J., Jensen, C., Madden, M., Martin, D., Willis, H., Konerza, W., Yang, S., Kleeberger, K., Passi, R., Fortmann, S., Herson, M., Mularski, K., Glauber, H., Prihoda, J., Ash, B., Carlson, C., Ramey, P.A., Schield, E., Torgrimson-Ojerio, B., Arnold, K., Kauffman, B., Panos, E., Sahnow, S., Bays, K., Berame, K., Cook, J., Ghioni, D., Gluth, J., Schell, K., Criscola, J., Friason, C., Jones, S., Nazarov, S., Rassouli, N., Puttnam, R., Ojoawo, B., Nelson, R., Curtis, M., Hollis, B., Sanders-Jones, C., Stokes, K., El-Haqq, Z., Kolli, A., Tran, T., Wexler, D., Larkin, M.E., Meigs, J., Chambers, B., Dushkin, A., Rocchio, G., Yepes, M., Steiner, B., Dulin, H., Cayford, M., Chu, K., DeManbey, A., Hillard, M., Martin, K., Thangthaeng, N., Gurry, L., Kochis, R., Raymond, E., Ripley, V., Stevens, C., Park, J., Aroda, V., Ghazi, A., Magee, M., Ressing, A., Loveland, A., Hamm, M., Hurtado, M., Kuhn, A., Leger, J., Manandhar, L., Mwicigi, F., Sanchez, O., Young, T., Garg, R., Lagari-Libhaber, V., Florez, H.J., Valencia, W.M., Marks, J., Casula, S., Oropesa-Gonzalez, L., Hue, L., Cuadot, A., Nieto-Martinez, R., Riccio Veliz, A.K., Gutt, M., Kendal, Y.J., Veciana, B., Ahmann, A., Aby-Daniel, D., Joarder, F., Morimoto, V., Sprague, C., Yamashita, D., Cady, N., Rivera-Eschright, N., Kirchhoff, P., Morales Gomez, B., Adducci, J., Goncharova, A., Hox, S.H., Petrovitch, H., Matwichyna, M., Jenkins, V., Broadwater, L., Ishii, R.R., Bermudez, N.O., Hsia, D.S., Cefalu, W.T., Greenway, F.L., Waguespack, C., King, E., Fry, G., Dragg, A., Gildersleeve, B., Arceneaux, J., Haynes, N., Thomassie, A., Pavlionis, M., Bourgeois, B., Hazlett, C., Henry, R., Boeder, S., Pettus, J., Diaz, E., Garcia-Acosta, D., Maggs, S., DeLue, C., Stallings, A., Castro, E., Hernandez, S., Krakoff, J., Curtis, J.M., Killean, T., Khalid, M., Joshevama, E., Diaz, E., Martin, D., Tsingine, K., Karshner, T., Albu, J., Pi-Sunyer, F.X., Frances, S., Maggio, C., Ellis, E., Bastawrose, J., Gong, X., Banerji, M.A., August, P., Lee, M., Lorber, D., Brown, N.M., Josephson, D.H., Thomas, L.L., Tsovian, M., Cherian, A., Jacobson, M.H., Mishko, M.M., Kirkman, M.S., Buse, J.B., Diner, J., Dostou, J., Machineni, S., Young, L., Bergamo, K., Goley, A., Kerr, J., Largay, J.F., Guarda, S., Cuffee, J., Culmer, D., Fraser, R., Almeida, H., Coffer, S., Debnam, E., Kiker, L., Morton, S., Josey, K., Fuller, G., Garvey, W.T., Cherrington, A.L., Dyer, D., Lawson, M.C.R., Griffith, O., Agne, A., McCullars, S., Cohen, R.M., Craig, J., Rogge, M.C., Burton, K., Kersey, K., Wilson, C., Lipp, S., Vonder Meulen, M.B., Adkins, C., Onadeko, T., Rasouli, N., Baker, C., Schroeder, E., Razzaghi, M., Lyon, C., Penaloza, R., Underkofler, C., Lorch, R., Douglass, S., Steiner, S., Sivitz, W.I., Cline, E., Knosp, L.K., McConnell, J., Lowe, T., Herman, W.H., Pop-Busui, R., Martin, C., Waltje, A., Katona, A., Goodhall, L., Eggleston, R., Kuo, S., Bojescu, S., Bule, S., Kessler, N., LaSalle, E., Whitley, K., Seaquist, E.R., Bantle, A., Harindhanavudhi, T., Kumar, A., Redmon, B., Bantle, J., Coe, M., Mech, M., Taddese, A., Lesne, L., Smith, S., Kuechenmeister, L., Shivaswamy, V., Burbach, S., Rodriguez, M.G., Seipel, K., Alfred, A., Morales, A.L., Eggert, J., Lord, G., Taylor, W., Tillson, R., Adolphe, A., Burge, M., Duran-Valdez, E., Martinez, J., Bancroft, A., Kunkel, S., Ali Jamaleddin Ahmad, F., Hernandez McGinnis, D., Pucchetti, B., Scripsick, E., Zamorano, A., DeFronzo, R.A., Cersosimo, E., Abdul-Ghani, M., Triplitt, C., Juarez, D., Mullen, M., Garza, R.I., Verastiqui, H., Wright, K., Puckett, C., Raskin, P., Rhee, C., Abraham, S., Jordan, L.F., Sao, S., Morton, L., Smith, O., Osornio Walker, L., Schnurr-Breen, L., Ayala, R., Kreymer, R.B., Sturgess, D., Kahn, S.E., Alarcon-Casas Wright, L., Boyko, E.J., Tsai, E.C., Trence, D.L., Trikudanathan, S., Fattaleh, B.N., Montgomery, B.K., Atkinson, K.M., Kozedub, A., Concepcion, T., Moak, C., Prikhodko, N., Rhothisen, S., Elasy, T.A., Martin, S., Shackelford, L., Goidel, R., Hinkle, N., Lovell, C., Myers, J., Lipps Hogan, J., McGill, J.B., Salam, M., Schweiger, T., Kissel, S., Recklein, C., Clifton, M.J., Tamborlane, W., Camp, A., Gulanski, B., Pham, K., Alguard, M., Gatcomb, P., Lessard, K., Perez, M., Iannone, L., Magenheimer, E., Montosa, A., Cefalu, W.T., Fradkin, J., Burch, H.B., Bremer, A.A., Nathan, D.M., Lachin, J.M., Buse, J.B., Kahn, S.E., Larkin, M.E., Tiktin, M., Wexler, D., Burch, H.B., Bremer, A.A., Lachin, J.M., Bebu, I., Butera, N., Buys, C.J., Fagan, A., Gao, Y., Gramzinski, M.R., Hall, S.D., Kazemi, E., Legowski, E., Liu, H., Suratt, C., Tripputi, M., Arey, A., Backman, M., Bethepu, J., Lund, C., Mangat Dhaliwal, P., McGee, P., Mesimer, E., Ngo, L., Steffes, M., Seegmiller, J., Saenger, A., Arends, V., Gabrielson, D., Conner, T., Warren, S., Day, J., Huminik, J., Soliman, E.Z., Zhang, Z.M., Campbell, C., Hu, J., Keasler, L., Hensley, S., Li, Y., Herman, W.H., Kuo, S., Martin, C., Waltje, A., Mihalcea, R., Min, D.J., Perez-Rosas, V., Prosser, L., Resnicow, K., Ye, W., Shao, H., Zhang, P., Luchsinger, J., Sanchez, D., Assuras, S., Groessl, E., Sakha, F., Chong, H., Hillery, N., Abdouch, I., Bahtiyar, G., Brantley, P., Broyles, F.E., Canaris, G., Copeland, P., Craine, J.J., Fein, W.L., Gliwa, A., Hope, L., Lee, M.S., Meiners, R., Meiners, V., O’Neal, H., Park, J.E., Sacerdote, A., Sledge Jr, E., Soni, L., Steppel-Reznik, J., and Turchin, A.

Published
2024
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24. Design, Analysis and Development of Virtual Working Model of Self Balancing Robot

Author

Patel, C. H., Putta, Naga Sumanth, Sri Manikanta, Akula S. V. S. S., Reddy, Eluri Nikhil, Babu, Kambala Prasanna Ramesh Kumar, Cavas-Martínez, Francisco, Editorial Board Member, Chaari, Fakher, Series Editor, di Mare, Francesca, Editorial Board Member, Gherardini, Francesco, Series Editor, Haddar, Mohamed, Editorial Board Member, Ivanov, Vitalii, Series Editor, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Sudarshan, T. S., editor, Pandey, K. M., editor, Misra, R. D., editor, Patowari, P. K., editor, and Bhaumik, Swapan, editor

Published
2023
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26. Using Whiteboard Animation and Patient Narratives for Learning Clinical Ophthalmology: Student Perspectives

Author

Patel C and Snyder J

Subjects
learning, ophthalmology, whiteboard animation, patient narratives, curriculum, Special aspects of education, LC8-6691, Medicine (General), R5-920
Abstract

Chirag Patel, Joseph Snyder College of Medicine and Public Health, Flinders University, Flinders Medical Centre, Bedford Park, SA, AustraliaCorrespondence: Chirag Patel, College of Medicine and Public Health, Flinders University, Flinders Medical Centre, Bedford Park, SA, Australia, Tel +61 431 773124, Email chirag.patel@flinders.edu.auPurpose: In ophthalmology, an area that lacks teaching time in university, whiteboard animation and patient narratives may be untapped resources for learning. This research will seek student perspectives on both formats. The authors hypothesise that these formats would be a useful learning tool for clinical ophthalmology in the medical curriculum.Patients and Methods: The principal aims were to report the prevalence of using whiteboard animation and patient narratives to learn clinical ophthalmology and determine medical students’ perspectives on their satisfaction and value as a learning tool. A whiteboard animation and patient narrative video on an ophthalmological condition were provided to students attending two medical schools in South Australia. Following this, they were asked to provide feedback via an online questionnaire.Results: A total of 121 wholly answered surveys were obtained. 70% of students use whiteboard animation for medicine, but only 28% use it for ophthalmology. There was a significant association between the qualities of the whiteboard animation and satisfaction (P< 0.001). 25% of students use patient narratives for medicine, but only 10% use it for ophthalmology. Nonetheless, most of the students reported that patient narratives are engaging and improve memory.Conclusion: The consensus is that these learning methods would be welcome in ophthalmology if more content like this were available. According to medical students, whiteboard animation and patient narratives are helpful methods of learning ophthalmology, and a continued effort should be made for their use.Keywords: learning, ophthalmology, whiteboard animation, patient narratives, curriculum

Published
2023

27. An analysis pipeline for CHIME/FRB full-array baseband data

Author

Michilli, D., Masui, K. W., Mckinven, R., Cubranic, D., Bruneault, M., Brar, C., Patel, C., Boyle, P. J., Stairs, I. H., Renard, A., Bandura, K., Berger, S., Breitman, D., Cassanelli, T., Dobbs, M., Kaspi, V. M., Leung, C., Mena-Parra, J., Pleunis, Z., Russell, L., Scholz, P., Siegel, S. R., Tendulkar, S. P., and Vanderlinde, K.

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

The Canadian Hydrogen Intensity Mapping Experiment (CHIME) has become a leading facility for detecting fast radio bursts (FRBs) through the CHIME/FRB backend. CHIME/FRB searches for fast transients in polarization-summed intensity data streams that have 24-kHz spectral and 1-ms temporal resolution. The intensity beams are pointed to pre-determined locations in the sky. A triggered baseband system records the coherent electric field measured by each antenna in the CHIME array at the time of FRB detections. Here we describe the analysis techniques and automated pipeline developed to process these full-array baseband data recordings. Whereas the real-time FRB detection pipeline has a localization limit of several arcminutes, offline analysis of baseband data yields source localizations with sub-arcminute precision, as characterized by using a sample of pulsars and one repeating FRB with known positions. The baseband pipeline also enables resolving temporal substructure on a micro-second scale and the study of polarization including detections of Faraday rotation.

Published
2020
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28. The Discovery of Nulling and Mode Switching Pulsars with CHIME/Pulsar

Author

Ng, C., Wu, B., Ma, M., Ransom, S. M., Naidu, A., Fonseca, E., Boyle, P. J., Brar, C., Cubranic, D., Demorest, P. B., Good, D. C., Kaspi, V. M., Masui, K. W., Michilli, D., Patel, C., Renard, A., Scholz, P., Stairs, I. H., Tendulkar, S. P., Tretyakov, I., and Vanderlinde, K.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

The Pulsar backend of the Canadian Hydrogen Intensity Mapping Experiment (CHIME) has monitored hundreds of known pulsars in the northern sky since Fall 2018, providing a rich data set for the study of temporal variations in pulsar emission. Using a matched filtering technique, we report, for the first time, nulling behaviour in five pulsars as well as mode switching in nine pulsars. Only one of the pulsars is observed to show both nulling and moding signals. These new nulling and mode switching pulsars appear to come from a population with relatively long spin periods, in agreement with previous findings in the literature., Comment: 11 pages, 7 figures, 2 tables, accepted by ApJ

Published
2020
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29. The CHIME Pulsar Project: System Overview

Author

Collaboration, CHIME/Pulsar, Amiri, M., Bandura, K. M., Boyle, P. J., Brar, C., Cliche, J. F., Crowter, K., Cubranic, D., Demorest, P. B., Denman, N. T., Dobbs, M., Dong, F. Q., Fandino, M., Fonseca, E., Good, D. C., Halpern, M., Hill, A. S., Höfer, C., Kaspi, V. M., Landecker, T. L., Leung, C., Lin, H. -H., Luo, J., Masui, K. W., McKee, J. W., Mena-Parra, J., Meyers, B. W., Michilli, D., Naidu, A., Newburgh, L., Ng, C., Patel, C., Pinsonneault-Marotte, T., Ransom, S. M., Renard, A., Scholz, P., Shaw, J. R., Sikora, A. E., Stairs, I. H., Tan, C. M., Tendulkar, S. P., Tretyakov, I., Vanderlinde, K., Wang, H., and Wang, X.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We present the design, implementation and performance of a digital backend constructed for the Canadian Hydrogen Intensity Mapping Experiment (CHIME) that uses accelerated computing to observe radio pulsars and transient radio sources. When operating, the CHIME correlator outputs 10 independent streams of beamformed data for the CHIME/Pulsar backend that digitally track specified celestial positions. Each of these independent streams are processed by the CHIME/Pulsar backend system which can coherently dedisperse, in real-time, up to dispersion measure values of 2500 pc/cm$^{-3}$ . The tracking beams and real-time analysis system are autonomously controlled by a priority-based algorithm that schedules both known sources and positions of interest for observation with observing cadences as small as one day. Given the distribution of known pulsars and radio-transient sources, the CHIME/Pulsar system can monitor up to 900 positions once per sidereal day and observe all sources with declinations greater than $-20^\circ$ once every $\sim$2 weeks. We also discuss the science program enabled through the current modes of data acquisition for CHIME/Pulsar that centers on timing and searching experiments., Comment: 18 pages, 9 figures, 1 table. Submitted to ApJS

Published
2020
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30. A bright millisecond-duration radio burst from a Galactic magnetar

Author

Collaboration, The CHIME/FRB, Andersen, B. C., Bandura, K. M., Bhardwaj, M., Bij, A., Boyce, M. M., Boyle, P. J., Brar, C., Cassanelli, T., Chawla, P., Chen, T., Cliche, J. -F., Cook, A., Cubranic, D., Curtin, A. P., Denman, N. T., Dobbs, M., Dong, F. Q., Fandino, M., Fonseca, E., Gaensler, B. M., Giri, U., Good, D. C., Halpern, M., Hill, A. S., Hinshaw, G. F., Höfer, C., Josephy, A., Kania, J. W., Kaspi, V. M., Landecker, T. L., Leung, C., Li, D. Z., Lin, H. -H., Masui, K. W., Mckinven, R., Mena-Parra, J., Merryfield, M., Meyers, B. W., Michilli, D., Milutinovic, N., Mirhosseini, A., Münchmeyer, M., Naidu, A., Newburgh, L. B., Ng, C., Patel, C., Pen, U. -L., Pinsonneault-Marotte, T., Pleunis, Z., Quine, B. M., Rafiei-Ravandi, M., Rahman, M., Ransom, S. M., Renard, A., Sanghavi, P., Scholz, P., Shaw, J. R., Shin, K., Siegel, S. R., Singh, S., Smegal, R. J., Smith, K. M., Stairs, I. H., Tan, C. M., Tendulkar, S. P., Tretyakov, I., Vanderlinde, K., Wang, H., Wulf, D., and Zwaniga, A. V.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Magnetars are highly magnetized young neutron stars that occasionally produce enormous bursts and flares of X-rays and gamma-rays. Of the approximately thirty magnetars currently known in our Galaxy and Magellanic Clouds, five have exhibited transient radio pulsations. Fast radio bursts (FRBs) are millisecond-duration bursts of radio waves arriving from cosmological distances. Some have been seen to repeat. A leading model for repeating FRBs is that they are extragalactic magnetars, powered by their intense magnetic fields. However, a challenge to this model has been that FRBs must have radio luminosities many orders of magnitude larger than those seen from known Galactic magnetars. Here we report the detection of an extremely intense radio burst from the Galactic magnetar SGR 1935+2154 using the Canadian Hydrogen Intensity Mapping Experiment (CHIME) FRB project. The fluence of this two-component bright radio burst and the estimated distance to SGR 1935+2154 together imply a 400-800 MHz burst energy of $\sim 3 \times 10^{34}$ erg, which is three orders of magnitude brighter than those of any radio-emitting magnetar detected thus far. Such a burst coming from a nearby galaxy would be indistinguishable from a typical FRB. This event thus bridges a large fraction of the radio energy gap between the population of Galactic magnetars and FRBs, strongly supporting the notion that magnetars are the origin of at least some FRBs., Comment: Submitted to Nature. This version: Geocentric arrival time corrected

Published
2020
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31. Detection of Repeating FRB 180916.J0158+65 Down to Frequencies of 300 MHz

Author

Chawla, P., Andersen, B. C., Bhardwaj, M., Fonseca, E., Josephy, A., Kaspi, V. M., Michilli, D., Pleunis, Z., Bandura, K. M., Bassa, C. G., Boyle, P. J., Brar, C., Cassanelli, T., Cubranic, D., Dobbs, M., Dong, F. Q., Gaensler, B. M., Good, D. C., Hessels, J. W. T., Landecker, T. L., Leung, C., Li, D. Z., Lin, H. -. H., Masui, K., Mckinven, R., Mena-Parra, J., Merryfield, M., Meyers, B. W., Naidu, A., Ng, C., Patel, C., Rafiei-Ravandi, M., Rahman, M., Sanghavi, P., Scholz, P., Shin, K., Smith, K. M., Stairs, I. H., Tendulkar, S. P., and Vanderlinde, K.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We report on the detection of seven bursts from the periodically active, repeating fast radio burst (FRB) source FRB 180916.J0158+65 in the 300-400-MHz frequency range with the Green Bank Telescope (GBT). Emission in multiple bursts is visible down to the bottom of the GBT band, suggesting that the cutoff frequency (if it exists) for FRB emission is lower than 300 MHz. Observations were conducted during predicted periods of activity of the source, and had simultaneous coverage with the Low Frequency Array (LOFAR) and the FRB backend on the Canadian Hydrogen Intensity Mapping Experiment (CHIME) telescope. We find that one of the GBT-detected bursts has potentially associated emission in the CHIME band (400-800 MHz) but we detect no bursts in the LOFAR band (110-190 MHz), placing a limit of $\alpha > -1.0$ on the spectral index of broadband emission from the source. We also find that emission from the source is severely band-limited with burst bandwidths as low as $\sim$40 MHz. In addition, we place the strictest constraint on observable scattering of the source, $<$ 1.7 ms, at 350 MHz, suggesting that the circumburst environment does not have strong scattering properties. Additionally, knowing that the circumburst environment is optically thin to free-free absorption at 300 MHz, we find evidence against the association of a hyper-compact HII region or a young supernova remnant (age $<$ 50 yr) with the source., Comment: Accepted for publication in ApJL

Published
2020
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32. Periodic activity from a fast radio burst source

Author

Collaboration, The CHIME/FRB, Amiri, M., Andersen, B. C., Bandura, K. M., Bhardwaj, M., Boyle, P. J., Brar, C., Chawla, P., Chen, T., Cliche, J. F., Cubranic, D., Deng, M., Denman, N. T., Dobbs, M., Dong, F. Q., Fandino, M., Fonseca, E., Gaensler, B. M., Giri, U., Good, D. C., Halpern, M., Hessels, J. W. T., Hill, A. S., Höfer, C., Josephy, A., Kania, J. W., Karuppusamy, R., Kaspi, V. M., Keimpema, A., Kirsten, F., Landecker, T. L., Lang, D. A., Leung, C., Li, D. Z., Lin, H. -H., Marcote, B., Masui, K. W., Mckinven, R., Mena-Parra, J., Merryfield, M., Michilli, D., Milutinovic, N., Mirhosseini, A., Naidu, A., Newburgh, L. B., Ng, C., Nimmo, K., Paragi, Z., Patel, C., Pen, U. -L., Pinsonneault-Marotte, T., Pleunis, Z., Rafiei-Ravandi, M., Rahman, M., Ransom, S. M., Renard, A., Sanghavi, P., Scholz, P., Shaw, J. R., Shin, K., Siegel, S. R., Singh, S., Smegal, R. J., Smith, K. M., Stairs, I. H., Tendulkar, S. P., Tretyakov, I., Vanderlinde, K., Wang, H., Wang, X., Wulf, D., Yadav, P., and Zwaniga, A. V.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Fast radio bursts (FRBs) are bright, millisecond-duration radio transients originating from extragalactic distances. Their origin is unknown. Some FRB sources emit repeat bursts, ruling out cataclysmic origins for those events. Despite searches for periodicity in repeat burst arrival times on time scales from milliseconds to many days, these bursts have hitherto been observed to appear sporadically, and though clustered, without a regular pattern. Here we report the detection of a $16.35\pm0.15$ day periodicity (or possibly a higher-frequency alias of that periodicity) from a repeating FRB 180916.J0158+65 detected by the Canadian Hydrogen Intensity Mapping Experiment Fast Radio Burst Project (CHIME/FRB). In 38 bursts recorded from September 16th, 2018 through February 4th, 2020, we find that all bursts arrive in a 5-day phase window, and 50% of the bursts arrive in a 0.6-day phase window. Our results suggest a mechanism for periodic modulation either of the burst emission itself, or through external amplification or absorption, and disfavour models invoking purely sporadic processes.

Published
2020
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33. Nine New Repeating Fast Radio Burst Sources from CHIME/FRB

Author

Fonseca, E., Andersen, B. C., Bhardwaj, M., Chawla, P., Good, D. C., Josephy, A., Kaspi, V. M., Masui, K. W., Mckinven, R., Michilli, D., Pleunis, Z., Shin, K., Tendulkar, S. P., Bandura, K. M., Boyle, P. J., Brar, C., Cassanelli, T., Cubranic, D., Dobbs, M., Dong, F. Q., Gaensler, B. M., Hinshaw, G., Landecker, T. L., Leung, C., Li, D. Z., Lin, H. -H., Mena-Parra, J., Merryfield, M., Naidu, A., Ng, C., Patel, C., Pen, U., Rafiei-Ravandi, M., Rahman, M., Ransom, S. M., Scholz, P., Smith, K. M., Stairs, I. H., Vanderlinde, K., Yadav, P., and Zwaniga, A. V.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We report on the discovery and analysis of bursts from nine new repeating fast radio burst (FRB) sources found using the Canadian Hydrogen Intensity Mapping Experiment (CHIME) telescope. These sources span a dispersion measure (DM) range of 195 to 1380 pc cm$^{-3}$. We detect two bursts from three of the new sources, three bursts from four of the new sources, four bursts from one new source, and five bursts from one new source. We determine sky coordinates of all sources with uncertainties of $\sim$10$^\prime$. We detect Faraday rotation measures for two sources, with values $-20(1)$ and $-499.8(7)$ rad m$^{-2}$, that are substantially lower than the RM derived from bursts emitted by FRB 121102. We find that the DM distribution of our events, combined with the nine other repeaters discovered by CHIME/FRB, is indistinguishable from that of thus far non-repeating CHIME/FRB events. However, as previously reported, the burst widths appear statistically significantly larger than the thus far non-repeating CHIME/FRB events, further supporting the notion of inherently different emission mechanisms and/or local environments. These results are consistent with previous work, though are now derived from 18 repeating sources discovered by CHIME/FRB during its first year of operation. We identify candidate galaxies that may contain FRB 190303.J1353+48 (DM = 222.4 pc cm$^{-3}$)., Comment: Accepted for publication in ApJL

Published
2020
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34. A repeating fast radio burst source localised to a nearby spiral galaxy

Author

Marcote, B., Nimmo, K., Hessels, J. W. T., Tendulkar, S. P., Bassa, C. G., Paragi, Z., Keimpema, A., Bhardwaj, M., Karuppusamy, R., Kaspi, V. M., Law, C. J., Michilli, D., Aggarwal, K., Andersen, B., Archibald, A. M., Bandura, K., Bower, G. C., Boyle, P. J., Brar, C., Burke-Spolaor, S., Butler, B. J., Cassanelli, T., Chawla, P., Demorest, P., Dobbs, M., Fonseca, E., Giri, U., Good, D. C., Gourdji, K., Josephy, A., Kirichenko, A. Yu., Kirsten, F., Landecker, T. L., Lang, D., Lazio, T. J. W., Li, D. Z., Lin, H. -H., Linford, J. D., Masui, K., Mena-Parra, J., Naidu, A., Ng, C., Patel, C., Pen, U. -L., Pleunis, Z., Rafiei-Ravandi, M., Rahman, M., Renard, A., Scholz, P., Siegel, S. R., Smith, K. M., Stairs, I. H., Vanderlinde, K., and Zwaniga, A. V.

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

Fast radio bursts (FRBs) are brief, bright, extragalactic radio flashes. Their physical origin remains unknown, but dozens of possible models have been postulated. Some FRB sources exhibit repeat bursts. Though over a hundred FRB sources have been discovered to date, only four have been localised and associated with a host galaxy, with just one of the four known to repeat. The properties of the host galaxies, and the local environments of FRBs, provide important clues about their physical origins. However, the first known repeating FRB has been localised to a low-metallicity, irregular dwarf galaxy, and the apparently non-repeating sources to higher-metallicity, massive elliptical or star-forming galaxies, suggesting that perhaps the repeating and apparently non-repeating sources could have distinct physical origins. Here we report the precise localisation of a second repeating FRB source, FRB 180916.J0158+65, to a star-forming region in a nearby (redshift $z = 0.0337 \pm 0.0002$) massive spiral galaxy, whose properties and proximity distinguish it from all known hosts. The lack of both a comparably luminous persistent radio counterpart and a high Faraday rotation measure further distinguish the local environment of FRB 180916.J0158+65 from that of the one previously localised repeating FRB source, FRB 121102. This demonstrates that repeating FRBs have a wide range of luminosities, and originate from diverse host galaxies and local environments., Comment: 61 pages, 11 figures, 3 tables. Published in Nature

Published
2020
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35. Reduviid Predators

Author

Bhagyasree, S. N., primary, Anokhe, Archana, additional, Shashank, P. R., additional, and Patel, C. H., additional

Published
2023
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38. Eight Millisecond Pulsars Discovered in the Arecibo PALFA Survey

Author

Parent, E., Kaspi, V. M., Ransom, S. M., Freire, P. C. C., Brazier, A., Camilo, F., Chatterjee, S., Cordes, J. M., Crawford, F., Deneva, J. S., Ferdman, R. D., Hessels, J. W. T., van Leeuwen, J., Lyne, A. G., Madsen, E. C., McLaughlin, M. A., Patel, C., Scholz, P., Stairs, I. H., Stappers, B. W., and Zhu, W. W.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We report on eight millisecond pulsars (MSPs) in binary systems discovered with the Arecibo PALFA survey. Phase-coherent timing solutions derived from 2.5 to 5 years of observations carried out at Arecibo and Jodrell Bank observatories are provided. PSR J1921+1929 is a 2.65-ms pulsar in a 39.6-day orbit for which we detect $\gamma$-ray pulsations in archival Fermi data. PSR J1928+1245 is a very low-mass-function system with an orbital period of 3.3 hours that belongs to the non-eclipsing black widow population. We also present PSR J1932+1756, the longest-orbital-period (41.5 days) intermediate-mass binary pulsar known to date. In light of the numerous discoveries of binary MSPs over the past years, we characterize the Galactic distribution of known MSP binaries in terms of binary class. Our results support and strengthen previous claims that the scatter in the Galactic scale height distribution correlates inversely with the binary mass function. We provide evidence of observational biases against detecting the most recycled pulsars near the Galactic plane, which overestimates the scale height of lighter systems. A possible bimodality in the mass function of MSPs with massive white dwarfs is also reported., Comment: Submitted to ApJ, 21 pages, 10 figures

Published
2019
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39. CHIME/FRB Detection of Eight New Repeating Fast Radio Burst Sources

Author

Collaboration, The CHIME/FRB, Andersen, B. C., Bandura, K., Bhardwaj, M., Boubel, P., Boyce, M. M., Boyle, P. J., Brar, C., Cassanelli, T., Chawla, P., Cubranic, D., Deng, M., Dobbs, M., Fandino, M., Fonseca, E., Gaensler, B. M., Gilbert, A. J., Giri, U., Good, D. C., Halpern, M., Hill, A. S., Hinshaw, G., Höfer, C., Josephy, A., Kaspi, V. M., Kothes, R., Landecker, T. L., Lang, D. A., Li, D. Z., Lin, H. -H., Masui, K. W., Mena-Parra, J., Merryfield, M., Mckinven, R., Michilli, D., Milutinovic, N., Naidu, A., Newburgh, L. B., Ng, C., Patel, C., Pen, U., Pinsonneault-Marotte, T., Pleunis, Z., Rafiei-Ravandi, M., Rahman, M., Ransom, S. M., Renard, A., Scholz, P., Siegel, S. R., Singh, S., Smith, K. M., Stairs, I. H., Tendulkar, S. P., Tretyakov, I., Vanderlinde, K., Yadav, P., and Zwaniga, A. V.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We report on the discovery of eight repeating fast radio burst (FRB) sources found using the Canadian Hydrogen Intensity Mapping Experiment (CHIME) telescope. These sources span a dispersion measure (DM) range of 103.5 to 1281 pc cm$^{-3}$. They display varying degrees of activity: six sources were detected twice, another three times, and one ten times. These eight repeating FRBs likely represent the bright and/or high-rate end of a distribution of infrequently repeating sources. For all sources, we determine sky coordinates with uncertainties of $\sim$10$^\prime$. FRB 180916.J0158+65 has a burst-averaged DM = $349.2 \pm 0.3$ pc cm$^{-3}$ and a low DM excess over the modelled Galactic maximum (as low as $\sim$20 pc cm$^{-3}$); this source also has a Faraday rotation measure (RM) of $-114.6 \pm 0.6$ rad m$^{-2}$, much lower than the RM measured for FRB 121102. FRB 181030.J1054+73 has the lowest DM for a repeater, $103.5 \pm 0.3$ pc cm$^{-3}$, with a DM excess of $\sim$ 70 pc cm$^{-3}$. Both sources are interesting targets for multi-wavelength follow-up due to their apparent proximity. The DM distribution of our repeater sample is statistically indistinguishable from that of the first 12 CHIME/FRB sources that have not repeated. We find, with 4$\sigma$ significance, that repeater bursts are generally wider than those of CHIME/FRB bursts that have not repeated, suggesting different emission mechanisms. Our repeater events show complex morphologies that are reminiscent of the first two discovered repeating FRBs. The repetitive behavior of these sources will enable interferometric localizations and subsequent host galaxy identifications., Comment: 40 pages, 11 figures; accepted by ApJL on 28 September 2019; added analysis of correlation between width and max. flux density

Published
2019
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40. CHIME/FRB Detection of the Original Repeating Fast Radio Burst Source FRB 121102

Author

Josephy, A., Chawla, P., Fonseca, E., Ng, C., Patel, C., Pleunis, Z., Scholz, P., Andersen, B. C., Bandura, K., Bhardwaj, M., Boyce, M. M., Boyle, P. J., Brar, C., Cubranic, D., Dobbs, M., Gaensler, B. M., Gill, A., Giri, U., Good, D. C., Halpern, M., Hinshaw, G., Kaspi, V. M., Landecker, T. L., Lang, D. A., Lin, H. -H., Masui, K. W., Mckinven, R., Mena-Parra, J., Merryfield, M., Michilli, D., Milutinovic, N., Naidu, A., Pen, U., Rafiei-Ravandi, M., Rahman, M., Ransom, S. M., Renard, A., Siegel, S. R., Smith, K. M., Stairs, I. H., Tendulkar, S. P., Vanderlinde, K., Yadav, P., and Zwaniga, A. V.

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

We report the detection of a single burst from the first-discovered repeating Fast Radio Burst source, FRB 121102, with CHIME/FRB, which operates in the frequency band 400-800 MHz. The detected burst occurred on 2018 November 19 and its emission extends down to at least 600 MHz, the lowest frequency detection of this source yet. The burst, detected with a significance of 23.7$\sigma$, has fluence 12$\pm$3 Jy ms and shows complex time and frequency morphology. The 34 ms width of the burst is the largest seen for this object at any frequency. We find evidence of sub-burst structure that drifts downward in frequency at a rate of -3.9$\pm$0.2 MHz ms$^{-1}$. Our best fit tentatively suggests a dispersion measure of 563.6$\pm$0.5 pc cm$^{-3}$, which is ${\approx}$1% higher than previously measured values. We set an upper limit on the scattering time at 500 MHz of 9.6 ms, which is consistent with expectations from the extrapolation from higher frequency data. We have exposure to the position of FRB 121102 for a total of 11.3 hrs within the FWHM of the synthesized beams at 600 MHz from 2018 July 25 to 2019 February 25. We estimate on the basis of this single event an average burst rate for FRB 121102 of 0.1-10 per day in the 400-800 MHz band for a median fluence threshold of 7 Jy ms in the stated time interval., Comment: Accepted in Astrophysical Journal Letters

Published
2019
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41. A Second Source of Repeating Fast Radio Bursts

Author

Collaboration, The CHIME/FRB, Amiri, M., Bandura, K., Bhardwaj, M., Boubel, P., Boyce, M. M., Boyle, P. J., Brar, C., Burhanpurkar, M., Cassanelli, T., Chawla, P., Cliche, J. F., Cubranic, D., Deng, M., Denman, N., Dobbs, M., Fandino, M., Fonseca, E., Gaensler, B. M., Gilbert, A. J., Gill, A., Giri, U., Good, D. C., Halpern, M., Hanna, D. S., Hill, A. S., Hinshaw, G., Höfer, C., Josephy, A., Kaspi, V. M., Landecker, T. L., Lang, D. A., Lin, H. -H., Masui, K. W., Mckinven, R., Mena-Parra, J., Merryfield, M., Michilli, D., Milutinovic, N., Moatti, C., Naidu, A., Newburgh, L. B., Ng, C., Patel, C., Pen, U. -L., Pinsonneault-Marotte, T., Pleunis, Z., Rafiei-Ravandi, M., Rahman, M., Ransom, S. M., Renard, A., Scholz, P., Shaw, J. R., Siegel, S. R., Smith, K. M., Stairs, I. H., Tendulkar, S. P., Tretyakov, I., Vanderlinde, K., and Yadav, P.

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

The discovery of a repeating Fast Radio Burst (FRB) source, FRB 121102, eliminated models involving cataclysmic events for this source. No other repeating FRB has yet been detected in spite of many recent FRB discoveries and follow-ups, suggesting repeaters may be rare in the FRB population. Here we report the detection of six repeat bursts from FRB 180814.J0422+73, one of the 13 FRBs detected by the Canadian Hydrogen Intensity Mapping Experiment (CHIME) FRB project during its pre-commissioning phase in July and August 2018. These repeat bursts are consistent with originating from a single position on the sky, with the same dispersion measure (DM), ~189 pc cm-3. This DM is approximately twice the expected Milky Way column density, and implies an upper limit on the source redshift of 0.1, at least a factor of ~2 closer than FRB 121102. In some of the repeat bursts, we observe sub-pulse frequency structure, drifting, and spectral variation reminiscent of that seen in FRB 121102, suggesting similar emission mechanisms and/or propagation effects. This second repeater, found among the first few CHIME/FRB discoveries, suggests that there exists -- and that CHIME/FRB and other wide-field, sensitive radio telescopes will find -- a substantial population of repeating FRBs., Comment: accepted by Nature

Published
2019
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42. Queering Faith in Fantasy Literature: Fantastic Incarnations and the Deconstruction of Theology by Taylor Driggers

Author

Palmer-Patel, C.

Subjects
Queering Faith in Fantasy Literature: Fantastic Incarnations and the Deconstruction of Theology (Critical work) -- Driggers, Taylor, Books -- Book reviews, Literature/writing, Philosophy and religion
Abstract

Review of Taylor Drigger's Queering Faith in Fantasy Literature: Fantastic incarnations and the Deconstruction of Theology, the first publication in Bloomsbury Academic's new 'Perspectives in Fantasy' series Additional Keywords Carter, Angela, Queering Faith in Fantasy Literature: Fantastic Incarnations and the Deconstruction of Theology. Taylor Driggers. London: Bloomsbury Academic, 2022. 248 pp. ISBN 9781350231733. $115. As the first book in Bloomsbury's much [...]

Published
2022

45. Molecular and physiologic changes in the SpaceX Inspiration4 civilian crew

Author

Jones, C. W., primary, Overbey, E. G., additional, Lacombe, J., additional, Ecker, A. J., additional, Meydan, C., additional, Ryon, K., additional, Tierney, B., additional, Damle, N., additional, MacKay, M., additional, Afshin, E. E., additional, Foox, J., additional, Park, J., additional, Nelson, T., additional, Suhail, M., additional, Byhaqui, S. G., additional, Aslam, B., additional, Tali, U. A., additional, Nisa, L., additional, Menon, P., additional, Patel, C. O., additional, Khan, S. A., additional, Ebert, D. J., additional, Everson, A., additional, Schubert, M. C., additional, Ali, N. N., additional, Sarma, M. S., additional, Kim, J., additional, Houerbi, N., additional, Grigorev, K., additional, Garcia Medina, S., additional, Summers, A. J., additional, Gu, J., additional, Altin, J. A., additional, Fattahi, A., additional, Hirzallah, M. I., additional, Wu, J. H., additional, Stahn, A. C., additional, Beheshti, A., additional, Klotz, R., additional, Ortiz, V., additional, Yu, M., additional, Patras, L., additional, Matei, I., additional, Lyden, D., additional, Melnick, A., additional, Banerjee, N., additional, Mullane, S., additional, Kleinman, A., additional, Loesche, M., additional, Menon, A. S., additional, Donoviel, D. B., additional, Urquieta, E., additional, Mateus, J., additional, Sargsyan, A. E., additional, Shelhamer, M., additional, Zenhausern, F., additional, Bershad, E. M., additional, Basner, M., additional, and Mason, C. E., additional

Published
2024
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46. PALFA Single-Pulse Pipeline: New Pulsars, Rotating Radio Transients and a Candidate Fast Radio Burst

Author

Patel, C., Agarwal, D., Bhardwaj, M., Boyce, M. M., Brazier, A., Chatterjee, S., Chawla, P., Kaspi, V. M., Lorimer, D. R., McLaughlin, M. M., Parent, E., Pleunis, Z., Ransom, S. M., Scholz, P., Wharton, R. S., Zhu, W. W., Alam, M., Valdez, K. Caballero, Camilo, F., Cordes, J. M., Crawford, F., Deneva, J. S., Ferdman, R. D., Freire, P. C. C., Hessels, J. W. T., Nguyen, B., Stairs, I., Stovall, K., and van Leeuwen, J.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present a newly implemented single-pulse pipeline for the PALFA survey to efficiently identify single radio pulses from pulsars, Rotating Radio Transients (RRATs) and Fast Radio Bursts (FRBs). We have conducted a sensitivity analysis of this new pipeline in which multiple single pulses with a wide range of parameters were injected into PALFA data sets and run through the pipeline. Based on the recovered pulses, we find that for pulse widths $\rm < 5\ ms$ the sensitivity of the PALFA pipeline is at most a factor of $\rm \sim 2$ less sensitive to single pulses than our theoretical predictions. For pulse widths $\rm > 10\ ms$, as the $\rm DM$ decreases, the degradation in sensitivity gets worse and can increase up to a factor of $\rm \sim 4.5$. Using this pipeline, we have thus far discovered 7 pulsars and 2 RRATs and identified 3 candidate RRATs and 1 candidate FRB. The confirmed pulsars and RRATs have DMs ranging from 133 to 386 pc cm$^{-3}$ and flux densities ranging from 20 to 160 mJy. The pulsar periods range from 0.4 to 2.1 s. We report on candidate FRB 141113, which we argue is likely astrophysical and extragalactic, having $\rm DM \simeq 400\ pc~cm^{-3}$, which represents an excess over the Galactic maximum along this line of sight of $\rm \sim$ 100 - 200 pc cm$^{-3}$. We consider implications for the FRB population and show via simulations that if FRB 141113 is real and extragalactic, the slope $\alpha$ of the distribution of integral source counts as a function of flux density ($N (>S) \propto S^{-\alpha}$) is $1.4 \pm 0.5$ (95% confidence range). However this conclusion is dependent on several assumptions that require verification., Comment: 21 pages, 12 figures

Published
2018
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47. The implementation of a Fast-Folding pipeline for long-period pulsar searching in the PALFA survey

Author

Parent, E., Kaspi, V. M., Ransom, S. M., Krasteva, M., Patel, C., Scholz, P., Brazier, A., McLaughlin, M. A., Boyce, M., Zhu, W. W., Pleunis, Z., Allen, B., Bogdanov, S., Caballero, K., Camilo, F., Camuccio, R., Chatterjee, S., Cordes, J. M., Crawford, F., Deneva, J. S., Ferdman, R., Freire, P. C. C., Hessels, J. W. T., Jenet, F. A., Knispel, B., Lazarus, P., van Leeuwen, J., Lyne, A. G., Lynch, R., Seymour, A., Siemens, X., Stairs, I. H., Stovall, K., and Swiggum, J.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The Pulsar Arecibo L-Band Feed Array (PALFA) survey, the most sensitive blind search for radio pulsars yet conducted, is ongoing at the Arecibo Observatory in Puerto Rico. The vast majority of the 180 pulsars discovered by PALFA have spin periods shorter than 2 seconds. Pulsar surveys may miss long-period radio pulsars due to the summing of a finite number of harmonic components in conventional Fourier analyses (typically $\sim$16), or due to the strong effect of red noise at low modulation frequencies. We address this reduction in sensitivity by using a time-domain search technique: the Fast-Folding Algorithm (FFA). We designed a program that implements a FFA-based search in the PALFA processing pipeline, and tested the efficiency of the algorithm by performing tests under both ideal, white noise conditions, as well as with real PALFA observational data. In the two scenarios, we show that the time-domain algorithm has the ability to outperform the FFT-based periodicity search implemented in the survey. We perform simulations to compare the previously reported PALFA sensitivity with that obtained using our new FFA implementation. These simulations show that for a pulsar having a pulse duty cycle of roughly 3%, the performance of our FFA pipeline exceeds that of our FFT pipeline for pulses with DM $\lesssim$ 40 pc cm$^{-3}$ and for periods as short as $\sim$500 ms, and that the survey sensitivity is improved by at least a factor of two for periods $\gtrsim$ 6 sec. Discoveries from the implementation of the algorithm in PALFA are also presented in this paper., Comment: Accepted for publication in The Astrophysical Journal; 19 pages, 9 figures, 2 tables

Published
2018
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48. The CHIME Fast Radio Burst Project: System Overview

Author

Collaboration, The CHIME/FRB, Amiri, M., Bandura, K., Berger, P., Bhardwaj, M., Boyce, M. M., Boyle, P. J., Brar, C., Burhanpurkar, M., Chawla, P., Chowdhury, J., Cliche, J. F., Cranmer, M. D., Cubranic, D., Deng, M., Denman, N., Dobbs, M., Fandino, M., Fonseca, E., Gaensler, B. M., Giri, U., Gilbert, A. J., Good, D. C., Guliani, S., Halpern, M., Hinshaw, G., Hofer, C., Josephy, A., Kaspi, V. M., Landecker, T. L., Lang, D., Liao, H., Masui, K. W., Mena-Parra, J., Naidu, A., Newburgh, L. B., Ng, C., Patel, C., Pen, U. -L, Pinsonneault-Marotte, T., Pleunis, Z., Ravandi, M. Rafiei, Ransom, S. M., Renard, A., Scholz, P., Sigurdson, K, Siegel, S. R., Smith, K. M., Stairs, I. H., Tendulkar, S. P., Vanderlinde, K., and Wiebe, D. V.

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

The Canadian Hydrogen Intensity Mapping Experiment (CHIME) is a novel transit radio telescope operating across the 400-800-MHz band. CHIME is comprised of four 20-m x 100-m semi-cylindrical paraboloid reflectors, each of which has 256 dual-polarization feeds suspended along its axis, giving it a >200 square degree field-of-view. This, combined with wide bandwidth, high sensitivity, and a powerful correlator makes CHIME an excellent instrument for the detection of Fast Radio Bursts (FRBs). The CHIME Fast Radio Burst Project (CHIME/FRB) will search beam-formed, high time-and frequency-resolution data in real time for FRBs in the CHIME field-of-view. Here we describe the CHIME/FRB backend, including the real-time FRB search and detection software pipeline as well as the planned offline analyses. We estimate a CHIME/FRB detection rate of 2-42 FRBs/sky/day normalizing to the rate estimated at 1.4-GHz by Vander Wiel et al. (2016). Likely science outcomes of CHIME/FRB are also discussed. CHIME/FRB is currently operational in a commissioning phase, with science operations expected to commence in the latter half of 2018., Comment: 27 pages, submitted to ApJ

Published
2018
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49. PALFA Discovery of a Highly Relativistic Double Neutron Star Binary

Author

Stovall, K., Freire, P. C. C., Chatterjee, S., Demorest, P. B., Lorimer, D. R., McLaughlin, M. A., Pol, N., van Leeuwen, J., Wharton, R. S., Allen, B., Boyce, M., Brazier, A., Caballero, K., Camilo, F., Camuccio, R., Cordes, J. M., Crawford, F., Deneva, J. S., Ferdman, R. D., Hessels, J. W. T., Jenet, F. A., Kaspi, V. M., Knispel, B., Lazarus, P., Lynch, R., Parent, E., Patel, C., Pleunis, Z., Ransom, S. M., Scholz, P., Seymour, A., Siemens, X., Stairs, I. H., Swiggum, J., and Zhu, W. W.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics, General Relativity and Quantum Cosmology
Abstract

We report the discovery and initial follow-up of a double neutron star (DNS) system, PSR J1946$+$2052, with the Arecibo L-Band Feed Array pulsar (PALFA) survey. PSR J1946$+$2052 is a 17-ms pulsar in a 1.88-hour, eccentric ($e \, =\, 0.06$) orbit with a $\gtrsim 1.2 \, M_\odot$ companion. We have used the Jansky Very Large Array to localize PSR J1946$+$2052 to a precision of 0.09 arcseconds using a new phase binning mode. We have searched multiwavelength catalogs for coincident sources but did not find any counterparts. The improved position enabled a measurement of the spin period derivative of the pulsar ($\dot{P} \, = \, 9\,\pm \, 2 \,\times 10^{-19}$); the small inferred magnetic field strength at the surface ($B_S \, = \, 4 \, \times \, 10^9 \, \rm G$) indicates that this pulsar has been recycled. This and the orbital eccentricity lead to the conclusion that PSR J1946$+$2052 is in a DNS system. Among all known radio pulsars in DNS systems, PSR J1946$+$2052 has the shortest orbital period and the shortest estimated merger timescale, 46 Myr; at that time it will display the largest spin effects on gravitational wave waveforms of any such system discovered to date. We have measured the advance of periastron passage for this system, $\dot{\omega} \, = \, 25.6 \, \pm \, 0.3\, \deg \rm yr^{-1}$, implying a total system mass of only 2.50 $\pm$ 0.04 $M_\odot$, so it is among the lowest mass DNS systems. This total mass measurement combined with the minimum companion mass constrains the pulsar mass to $\lesssim 1.3 \, M_\odot$., Comment: Accepted for publication by ApJL, 8 pages, 3 figures

Published
2018
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