Qubic III：实验室表征

论文标题

Qubic III：实验室表征

QUBIC III: Laboratory Characterization

论文作者

Torchinsky, S. A., Hamilton, J. -Ch., Piat, M., Battistelli, E. S., Chapron, C., D'Alessandro, G., de Bernardis, P., De Petris, M., Lerena, M. M. Gamboa, González, M., Grandsire, L., Masi, S., Marnieros, S., Mennella, A., Mousset, L., Murphy, J. D., Prêle, D., Stankowiak, G., O'Sullivan, C., Tartari, A., Thermeau, J. -P., Voisin, F., Zannoni, M., Ade, P., Alberro, J. G., Almela, A., Amico, G., Arnaldi, L. H., Auguste, D., Aumont, J., Azzoni, S., Banfi, S., Bélier, B., Baù, A., Bennett, D., Bergé, L., Bernard, J. -Ph., Bersanelli, M., Bigot-Sazy, M. -A., Bonaparte, J., Bonis, J., Bunn, E., Burke, D., Buzi, D., Cavaliere, F., Chanial, P., Charlassier, R., Cerutti, A. C. Cobos, Columbro, F., Coppolecchia, A., De Gasperis, G., De Leo, M., Dheilly, S., Duca, C., Dumoulin, L., Etchegoyen, A., Fasciszewski, A., Ferreyro, L. P., Fracchia, D., Franceschet, C., Ganga, K. M., García, B., Redondo, M. E. García, Gaspard, M., Gayer, D., Gervasi, M., Giard, M., Gilles, V., Giraud-Heraud, Y., Berisso, M. Gómez, Gradziel, M., Hampel, M. R., Harari, D., Henrot-Versillé, S., Incardona, F., Jules, E., Kaplan, J., Kristukat, C., Lamagna, L., Loucatos, S., Louis, T., Maffei, B., Marty, W., Mattei, A., May, A., McCulloch, M., Mele, L., Melo, D., Montier, L., Mundo, L. M., Murphy, J. A., Nati, F., Olivieri, E., Oriol, C., Paiella, A., Pajot, F., Passerini, A., Pastoriza, H., Pelosi, A., Perbost, C., Perciballi, M., Pezzotta, F., Piacentini, F., Piccirillo, L., Pisano, G., Platino, M., Polenta, G., Puddu, R., Rambaud, D., Ringegni, P., Romero, G. E., Rasztocky, E., Salum, J. M., Schillaci, A., Scóccola, C., Scully, S., Spinelli, S., Stolpovskiy, M., Supanitsky, A. D., Timbie, P., Tomasi, M., Tucker, G., Tucker, C., Viganò, D., Vittorio, N., Wicek, F., Wright, M., Zullo, A.

论文摘要

宇宙学的Q＆U射程干涉仪（QUBIC）的原型版本在巴黎的Astroparpicle物理学和宇宙学实验室进行了测试活动。我们报告了该技术证明器的结果，该结果成功地显示了降压测量学原理的可行性。 Qubic的表征包括测量合成束，干扰条纹的测量以及极化性能的测量。望远镜远场中的调制频率可调毫米波源用于模拟点源。 Qubic指向在点源扫描以产生梁图。使用旋转的半波板测量极化调制。测得的光束非常匹配理论模拟，并使Qubic具有进行光谱成像的能力。极化性能非常出色，小于0.5 \％交叉极化排斥反应。 Qubic已准备好在阿根廷Alto Chorillo的高海拔地区部署，开始科学作战。

A prototype version of the Q & U Bolometric Interferometer for Cosmology (QUBIC) underwent a campaign of testing in the laboratory at Astroparticle Physics and Cosmology in Paris. We report the results of this Technological Demonstrator which successfully shows the feasibility of the principle of Bolometric Interferometry. Characterization of QUBIC includes the measurement of the synthesized beam, the measurement of interference fringes, and the measurement of polarization performance. A modulated and frequency tunable millimetre-wave source in the telescope far-field is used to simulate a point source. The QUBIC pointing is scanned across the point source to produce beam maps. Polarization modulation is measured using a rotating Half Wave Plate. The measured beam matches well to the theoretical simulations and gives QUBIC the ability to do spectro imaging. The polarization performance is excellent with less than 0.5\% cross-polarization rejection. QUBIC is ready for deployment on the high altitude site at Alto Chorillo, Argentina to begin scientific operations.

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