29 30 2 7 ( ) 09:00 17:40 08:55 31 501 09:00 09:05 31 501 9:05 10:15 1 ( ) -01 ( 5 ) (10:15 10:25 ) 10:25 11:50 2 ( ) -02 ( 6 ) (11:50 13:00 ) 13:00 14:10 1 ( ) -03 ( 5 ) (14:10 14:20 ) 14:20 16:10 2 ( ) -04 ( 4 ) -05 ( 4 ) (16:10 16:20 ) 16:20 17:30 3 ( ) -06 ( 5 ) 31 502 09:05 10:15 1 ( ) -01 ( 5 ) (10:15 10:30 ) 10:30 11:30 2 ( ) -02 ( 4 ) (11:30 13:00 ) 13:00 14:00 1 ( ) -03 ( 3 ) -04 ( 1 ) (14:00 14:15 ) 14:15 15:50 2 ( ) -05 ( 7 ) (15:50 16:05 ) 16:05 17:15 3 ( ) -06 ( 5 ) 17:30 17:40 31 501 17:40 10, 3 30 8 10 13 3 4 8 55 501 3 4 17:40 18:30 20:00 11 18:30 : 20:00
2 ( ), ( DSPC) C=O C=O C=O C=O
2 2 2 2 1 2 1/2 BEC BEC BEC Rashba Dresselhaus 2 Gross-Pitaevskii BEC 3 RSA IBM IBM 6=2 3 IBM 15=3 5 35=5 7
2 A B AB A B A15 A15 A15-2 - 10 5 5 2 10 8 6 3 10 Penrose 8 Ammann-Beenker 6 2 1 6 PT BMQCT BMQCT PT
YBCO Ni-Zn YBa 2 Cu 3 O 7 x (YBCO) 93K YBCO Y Ba Cu Rh Pd Ru Rh Ni Zn Cu YBCO Cu Ni Zn YBCO Ni Zn Ni YBCO X YBa 2 Cu 3 O 7 δ (YBCO) Ni-Mg Zn YBCO T c Ni Zn Zn Mg YBCO Ni Zn Ni Mg Ni Mg Ni Zn Mg 1.0% Ni 0.0% 3.0% 0.2% X Ni 0.0% 0.6% Mg 0.8% 3.0% Bi2212 1986 Bi2212 SrO Bi SrO Bi 2+xSr 2 xcacu 2O 8+δ x=0.0 0.2 SrO Bi CuO 2 Bi2212 x Bi2212 ( ) x Bi2212 X x = 0.05 0.20 Bi2212 NaCl Bi2212 NaCl NaCl Bi2212 Bi2212 Bi2212
3D 3D 60 3D CNT CNT 3 CNT CNT 3D 3 CNT (n, m) 2n + m = 3p (p ) Global Positioning System Global Positioning System GPS GPS 1 cm GPS Arduino GPS Quasi-Zenith Satellites SF
Hodgkin-Huxley Hodgkin-Huxley (HH) memristor: - I V HH HH I-V HH Z(2) Tononi Z(2) A B B A J AB = J BA = 1 J AB J BA J LR J RL J LR J RL Z(2) Tononi 2 2 Z(2) Tononi (IIT) (1) (2) (1) (2) 2D CP1 U(1) (1) Z(2) U(1)Higgs (2) CP1 U(1) (2) CP1
CMB 2 1 2 CMB 2 4 nilc nilc MG0414+0534 MG0414+0534 4 (Inoue et al. 2017) ALMA MG0414+0534 Y 4 MG0414+0534 3D 1 2
137 10 15 m SU(3) - Glashow-Weinberg-Salam 4 3 Glashow-Weinberg-Salam U(1) SU(2) 3 K d d s FCNC GIM CP CKM 1/2
(CdTe) Z CdTe CdTe CdTe 5 137 Cs 22 Na 60 Co 133 Ba 241 Am CdTe Li W ITER W W Li + Ogurtsov Kikiani PIG 1 34 S + EBIS 2 34 S + EBIS 10cps 3 32 S 3+ 1 2 kev GEM GEM GEM GEM GEM GEM
17 AKARI SED 90 µm 4 70 120 K 2000 35% 4 20au CanSat R&D Raspberry Pi CanSat CanSat CanSat Raspberry Pi Raspberry Pi Raspberry Pi Python Raspberry Pi Python CanSat CanSat PC CanSat CanSat IACT CORSIKA 1 gamma CTA CTA IACT(Imaging Atmospheric Cherenkov Technique) IACT - CORSIKA COsmic Ray SImulations for KAscade gamma photon photon bunch IACT CORSIKA 2 proton CORSIKA CORSIKA 20 GeV 300 TeV 0 20 photon bunch
IACT CORSIKA 3 iron IACT( ) 1 π 0 π 0 2 IACT CORSIKA 1 iron photon bunch gamma proton iron 1 2 CTA CTA CORSIKA LST CTA (LST) La Palma 2018 2024 CTA H.E.S.S, MAGIC, VERITAS 300 GeV 3 TeV 50 1 mcrab La Palma LST 4 gamma, proton, electron 1 mcrab
No-hair 10 22 30 3 No-hair J.A.Wheeler 1970 Carter 1982 Mazur Mazur No-hair QNMs (BH) (QNMs) QNMs BH QNMs QNMs BH BH BH BH QNMs QNMs QNMs WKB BH Kerr KerrBH Penrose KerrBH KerrBH KerrBH KerrBH Detweiler(1980) Kerr-AdS 1963 (BH) Kerr Roy Kerr KerrBH KerrBH Penrose KerrBH KerrBH Anti-de Sitter(AdS)