[1] C. M. G. Lattes, H. Muirhead, G. P. Occhialini, C. F. Powell, Processes
involving charged mesons, Nature 159 (4047) (1947) 694.
[2] K. Niu, E. Mikumo, Y. Maeda, A possible decay in flight of a new type
particle, Progress of Theoretical Physics 46 (5) (1971) 1644–1646.
455
460
465
[3] M. Danysz, K. Garbowska, J. Pniewski, T. Pniewski, J. Zakrzewski,
E. Fletcher, J. Lemonne, P. Renard, J. Sacton, W. Toner, et al., The
identification of a double hyperfragment, Nuclear Physics 49 (1963) 121–
132.
[4] H. Takahashi, J. K. Ahn, H. Akikawa, S. Aoki, K. Arai, S. Bahk, K. Baik,
B. Bassalleck, J. Chung, M. Chung, et al., Observation of a h λ λ 6 e
double hypernucleus, Physical Review Letters 87 (21) (2001) 212502.
[5] K. Kodama, N. Ushida, C. Andreopoulos, N. Saoulidou, G. Tzanakos,
P. Yager, B. Baller, D. Boehnlein, W. Freeman, B. Lundberg, et al., Observation of tau neutrino interactions, Physics Letters B 504 (3) (2001)
218–224.
[6] N. Agafonova, A. Aleksandrov, A. Anokhina, S. Aoki, A. Ariga,
T. Ariga, D. Bender, A. Bertolin, I. Bodnarchuk, C. Bozza, et al., Discovery of τ neutrino appearance in the cngs neutrino beam with the
opera experiment, Physical review letters 115 (12) (2015) 121802.
470
475
[7] K. Morishima, T. Nakano, Development of a new automatic nuclear
emulsion scanning system, s-uts, with continuous 3d tomographic image
read-out, Journal of Instrumentation 5 (04) (2010) P04011.
[8] M. Yoshimoto, T. Nakano, R. Komatani, H. Kawahara, Hyper-track
selector nuclear emulsion readout system aimed at scanning an area of
one thousand square meters, Progress of Theoretical and Experimental
Physics 2017 (10).
25
480
[9] A. Alexandrov, A. Buonaura, L. Consiglio, N. D ’Ambrosio, G. De Lellis, A. Di Crescenzo, G. Galati, V. Gentile, A. Lauria, M. C. Montesi,
et al., The continuous motion technique for a new generation of scanning
systems, Scientific reports 7 (1) (2017) 1–10.
[10] A. Alexandrov, G. De Lellis, V. Tioukov, A novel optical scanning technique with an inclined focusing plane, Scientific reports 9 (1) (2019)
1–10.
485
490
[11] T. Fukuda, S. Aoki, S. Cao, N. Chikuma, Y. Fukuzawa, M. Gonin,
T. Hayashino, Y. Hayato, A. Hiramoto, F. Hosomi, et al., First neutrino event detection with nuclear emulsion at j-parc neutrino beamline,
Progress of Theoretical and Experimental Physics 2017 (6).
[12] C. Ahdida, R. Albanese, A. Alexandrov, A. Anokhina, S. Aoki, G. Arduini, E. Atkin, N. Azorskiy, J. Back, A. Bagulya, et al., The experimental facility for the search for hidden particles at the cern sps, Journal
of Instrumentation 14 (03) (2019) P03025.
[13] S. Takahashi, S. Aoki, G. collaboration, et al., Graine project, prospects
for scientific balloon-borne experiments, Advances in Space Research
62 (10) (2018) 2945–2953.
495
500
[14] H. K. Tanaka, T. Nakano, S. Takahashi, J. Yoshida, M. Takeo,
J. Oikawa, T. Ohminato, Y. Aoki, E. Koyama, H. Tsuji, et al., High
resolution imaging in the inhomogeneous crust with cosmic-ray muon
radiography: The density structure below the volcanic crater floor of
mt. asama, japan, Earth and Planetary Science Letters 263 (1) (2007)
104–113.
[15] V. Tioukov, A. Alexandrov, C. Bozza, L. Consiglio, N. D ’Ambrosio,
G. De Lellis, C. De Sio, F. Giudicepietro, G. Macedonio, S. Miyamoto,
et al., First muography of stromboli volcano, Scientific reports 9 (1)
(2019) 1–11.
505
[16] K. MORISHIMA, Cosmic-ray imaging of fukushima daiichi nuclear
power plant, Journal of The Society of Photographic Science and Technology of Japan 79 (1) (2016) 42–47 (in Japanese).
[17] K. Morishima, M. Kuno, A. Nishio, N. Kitagawa, Y. Manabe, M. Moto,
F. Takasaki, H. Fujii, K. Satoh, H. Kodama, et al., Discovery of a big
26
510
void in khufu ’s pyramid by observation of cosmic-ray muons, Nature
552 (7685) (2017) 386.
[18] T. Tani, Photographic sensitivity: theory and mechanisms, no. 8, Oxford
University Press on Demand, 1995.
515
[19] K. Kuwabara, Silver halide emulsion sheet for detecting track of
charged elementary particles, and processing method thereof, uS Patent
7,037,641 (May 2 2006).
[20] A. Beiser, Nuclear emulsion technique, Reviews of Modern Physics 24 (4)
(1952) 273.
520
525
530
[21] T. Nakamura, A. Ariga, T. Ban, T. Fukuda, T. Fukuda, T. Fujioka,
T. Furukawa, K. Hamada, H. Hayashi, S. Hiramatsu, et al., The opera
film: New nuclear emulsion for large-scale, high-precision experiments,
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 556 (1)
(2006) 80–86.
[22] K. KUWABARA, S. NISHIYAMA, Development of new nuclear emulsion film for detection of neutrinos by opera experiment, Journal of The
Society of Photographic Science and Technology of Japan 67 (6) (2004)
521–526 (in Japanese).
[23] R. Acquafredda, N. Agafonova, M. Ambrosio, A. Anokhina, S. Aoki,
A. Ariga, L. Arrabito, D. Autiero, A. Badertscher, E. Baussan, et al.,
First events from the cngs neutrino beam detected in the opera experiment, New Journal of Physics 8 (12) (2006) 303.
[24] N. Naganawa, K. Kuwabara, Development of new high-sensitivity nuclear emulsion, Abstracts of Autumn Meeting (2010) 10 (in Japanese).
535
540
[25] S. Takahashi, S. Aoki, K. Hamada, T. Hara, T. Inoue, K. Ishiguro,
A. Iyono, H. Kawahara, K. Kodama, R. Komatani, et al., Graine 2015, a
balloon-borne emulsion γ-ray telescope experiment in australia, Progress
of Theoretical and Experimental Physics 2016 (7) (2016) 073F01.
[26] K. Morishima, A. Nishio, M. Moto, T. Nakano, M. Nakamura, Development of nuclear emulsion for muography, Annals of Geophysics 60 (1)
(2017) 0112.
27
545
[27] K. Ozaki, S. Aoki, K. Kamada, T. Kosaka, F. Mizutani, E. Shibayama,
S. Takahashi, Y. Tateishi, S. Tawa, K. Yamada, et al., Development
of new-type nuclear emulsion for a balloon-borne emulsion gamma-ray
telescope experiment, Journal of Instrumentation 10 (12) (2015) P12018.
[28] S. Gahler, Veroff. wiss. photo-lab, Wolfen X (1965) 63–72.
[29] T. Tani, A study of intensification of latent images in reductionsensitized emulsions through delayed development., Journal of imaging
science 30 (2) (1986) 41–46.
550
[30] A. Beiser, Latent image fading in nuclear emulsions, Physical Review
81 (1) (1951) 153.
28
...