MOIRCSで探る赤方偏移3.1原始銀河団　大質量銀河の誕生

全文

(1)῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῎ MOIRCS op. MOIRCS 3.1

(2) ῌ

(3) . . . . . . . 980ῌ8578

(4) . e-mail: [email protected].

(5) MOIRCS SSA22 z3.1 !"#$%&' ()*+,-./0123456789:#;<=>#$% ?5@785ABCD43E>#' F# SSA22 GHIJ K@LMN O a P*QRS (LAB) 5T FU@78VWCX=T YZC&U[#' \ 115 ] ^_5 SSA22 @78Cà"bbc dC(ef4[ ghE ijWk"HljCmnU[ '. "#:WM(q%{u,-. 1. . CfVrqh2*9. MV&A :{. 8ῌ10 m . $&(C"f$%&MV. ! " #$ 2

(6) %& ' ()*! +. &A }%*! "f9. I! (3W. $*,-./012*3/4567&8. &/4567&U(3'7:;<!. 9:;<,-=$>?@*&A B7. C. ,-YghW&B/$Mu&A B]9,-C. DEF,-G /HI7! ,-;<JK&L. 89:;<p(({,-.@*. MN(OP9QRSTUMV&A EF,-. 3/%. >W&XYZ9 (C[\(]&^. MC $! u3$@ ¡?. _àbc_d,- (LBG) +^_à a ef,. EF,-W&B/C¢+MV@A. - (LAE) gh$ij. 7&A /B$! )"f*. 7&A %I! WI&. /£,-. ¤¥_¦$§2. klmno^ Suprime-Cam p(]q!. "f-¨#\©ª* MOIRCS C! . B7rM(3? ,-st$. 28 / #« ?s~ª 0.117 0«/¬d. A 22! >67EF,-. ® M! "f K ¯a° 2.2 ±d²a $. >67*u. 1), 2). vCrwx. 7*)q! y;<zC. M. 9A. [19s³1"fno^MV&A 77 MOIRCS ´RµMC!. MOIRCS Deep Survey. ,-;<zC,-{|}z/2*. (MODS) /2¶*! SSA22 -t(V&" #. ~W&B/$Mu&A /2*CJ:;. 3.1 EF,-P3(2*u3), 4)A WI. <pMuV$@: W9 :. &kMOIRCS 7I! EF,-. { $. /9&A 22! [\M. "fM (@*n¯RW&B/$M. C ,-f>*&! y(. u&A 4MC! "f·RQ¸(¹. 0!:;<p%&B/2Mu9A. ,-:{º/2*! EF,-()»&. ¼ 104 . ¼9½. 477.

(7) MOIRCS ῎῍ ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍.

(8) . MOIRCS xVG"~ 2005 . 2. SSA22 ῒΐῑ῏῕. 9E 2008 9{\Y'( ~ 1. SSA22 z3.1 . 3. MOIRCS ῌ῍῎ῐ῔. ab 1 ,"

(9) '7) Suprime-. (LBG) a ! " (LAE). Cam x2~x6.

(10) . E'( LAE < )*6), 8) A4. 45. ,

(11) )a( 1 LAB 4a. $6

(12) '7)%896:;. * MOIRCS )~(v 6. ) < =>?&@ A. ) v' '$¡¢ f. 4B$>? LAE LBG CDE4FG". SSA22-M1ῌM6 lm῎ ~£r 104 . HI) JKLM. ¢) MODS ¤¥!¦5&)* §2. N*O PK* QR(N*. ¨£r" 0.4ῌ0.7 #¢)*O K ©. S TUE' AVWX9E 1.4 . ªA«¬ 0.5 #¢ yL, . Y(5>Z LAE [\6(]^). Z6(. 4 SSA222 $L_`( #a. 24.3, K24.4 fAB ° M1 5s 1 #¢±. b

(13) $96 . 12²³n )*O 3109 ´& 7)'. #$

(14) %&'( )*. 5), 6). +, -. 60 /0123. 7).

(15) c> a !"0de f. "n )a*O. 1. $%(®¯° J24.6, H. LBG 4µHb

(16) $)?¤C. a ghi jk LAB lmn 4 35 o

(17) %&'8) LAB a !"0de$ <pqg123. 45$6c>Zr). *O s 10 erg sῌ1 jtum vw 43. :;xyZ, +)%8 96@O Mz% TUE'

(18) 'S{< LAB $ + |$Z }U

(19) *8 LAB (LAB1, LAB2)

(20) '7)

(21) %&'( )A4c>)* &E V~9E SSA22 ) #$

(22) %&'@O >BZ I$a&'9)

(23) xy SSA22 %

(24) $)? L2h)* 9 =IyU) ZVG ) 5 2E'Z96 (. 1. MOIRCS x~ M1ῌM6 f "n ," LAE < f1s 2sn ab LAE < ¶2 ·¸ LAB ) * ¹¸ DRG 98 photo-z2.6ῌ3.6 )*. ῎1 SSA22-M3, M4, M5 ~( 2007 8* HAWAII-2 µHºyD»8(¼¬$*6() MOIRCS )*+>?&Z6 478. ,½-. 2011 9 ½.

(25) ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍ MOIRCS ῍ῌ. O #? ( Km.

(26) MOIRCS . # ' (\2`'. Suprime-Cam . HI^

(27) K3? LMHI HI%O. BVRi῏z῏. 3

(28) F`

(29) . !"# CFHTMegaCam $. u῎ !"%&''. 6), 8). $. #(

(30) )*!+ 1.0 ,#-.'. 4.2.

(31) (DRG). Photo-z K3%. !. / 012(34567 893. `

(32) "&(. 89% PSF 7:;<=>!+? 2(?. 'HI

(33) ?^5? %). . *!+7:;89% PSF 3-. `^/ 2(-.` R

(34) . 4.

(35)

(36) K.

(37) photo-z #Q #`! e#? . !" @2.2 ABC!D.

(38) EFGHI%J K 3.1 LMH I %N!. HI%O 3

(39) F K. K zP3

(40) V. %1%¡3'Y

(41) &! e3 ¢. !". JῌK Z 1.4 3 & b H I Distant Red Galaxies. !"Q ? R. (DRG) #£ K 2 J 4 %HIR. %( STUVWX N!. HI%. %03¤/12) ¥¦?HI3. Y 1) Photometric Redshift # 2) . e/4000A Õ *B z2ῌ4

(42) K. %1 (JῌKZ1.4; DRG) 3'. ? J. 4.1. Photometric Redshift

(43) . Photometric Redshift (photo-z) [9\2. !"# K. !"%$ x. %?T%§`HI JῌK -. @ D ` z<d&:'(%%(. !" @01D %2(J. {|G z2ῌ4 %SwxHI& JῌK . G^_^` K3abHI%<cBde. `¨ %1Y%) DRG % 1ῌ3. (SED) 3fghig!+? jk 2 l

(44) . Gyr *

(45) LBG ¨&¨x%?©. K3m

(46) photo-z fghig!. #ª %HI LMHI %N!. +%/nGopnG' hy-. 3 « ¬ § + ` ! e

(47) 1 . perz q"3'rs? `t rs%u. DRG %5® zphot2.6ῌ3.6

(48) HI%,. K HI%<cBdev Swx%. Chd?.

(49) ]. 10). 11). *=<ye S% z<d{|3f }~N#?' Photo-z HI%<cBde3. ^ DRG %! e#? JῌKZ2.1 #'5. '13ab HERO 13) ¯. °%±²HI U#³´Swx3?'`'. e/4000A Õ *Bt. HERO ^µS3¶¢'©. G K3 '

(50) . ±²HI%·¸#¹'

(51) º. #

(52) .

(53) hd?'. -'./ z<d»&:'/

(54). K 3.1 %HIb' $. G K 3 0

(55) /. . !`LMHI %N!. *!*B#. O

(56) .

(57) . Photo-z z3 %HIb' D zP0.5 % / z phot 2.6ῌ3.6 3LMHI N! 1 104 ¼. 19½. 479.

(58) MOIRCS ῍ῌ ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍. #2. DRG

(59) $" ¨© K '&

(60) ª6 «©{

(61) ªV; DRG ,¢¤12G¬

(62) $,-." ® SSA22-M1 346 ¯ h M 6 3 4

(63) ; " Q ® GOODS-N ;

(64) DRG

(65) $,?@

(66) 2A °±+12". #3. 5. . G ; " 7 8 9 M

(67) LAB 1 G LAB 2 ;6.

(68) 5.1. photo-z

(69) ² 1010.5 ³´µ¶

(70) ,8l ® " ® · 1010.5 ³ ´ µ ¶6 ® 1011.0 ³ ´µ¶,-." k¸ LAE

(71) $ 1s G 2s ,-." ¹ LAE

(72) $S( T6 º® LAB ;". DRG 2 oplmn1HM" DRG

(73) . K .

(74) qrM

(75) ;6 stu. 3.1 115

(76)

(77)

(78) . !" # 2 . Dv. LAB Gw>:2xyz8" {R;|&}~ ,AH DRG G

(79) bc!. !,. DRG

(80) $ %&'()*&+ ,-." /0. +12GR6 Y. 12 6 3456 DRG

(81) $789!:2

(82). 61!>!:2" DRG

(83) $

(84) LAB. M6 34;<6 78=>!:2

(85) M1 34. G

(86) bc6 photo-z lMH8

(87). ;:2" ?@

(88) 2ABCD4

(89) EFῌG1. ,-12" R

(90) 6 RKJ

(91) &. H6 MODS ; I J K 2 GOODS-N D 4

(92) DRG. mn1HMxyzkMRG,-. $8-12 " M6 34; DRG

(93) . .". GOODS-N

(94) 2 L>" 2MNOPQM. 5.2. 14). RGR

(95) 34 LAE

(96) S(TUM" V. >â,I.

(97) . SSA22 ;6

(98) . 26 DRG

(99) 5;WXM JῌK ,-. HERO. KHM

(100) . GOODS-N Y<8 7 L9Z6 [ M6 347. V;

(101) photo-z lMH6 ,. 89Z\]1HMRG8^!:2". A2# 3 ;"

(102) SED. DRG G LAB

(103) _`â

(104) bc,deG6. !" K '&; 24.0 AB. G ?!J¡¢8:2" SED

(105) £¤¥. LAB

(106) fg 0.1 ^h zi3.1 ; 50 kpc bj. photo-z ,¦M2" >§6 ^ KH. ; DRG

(107) $kZ>RG^!:2" l. M LBG lMH^ ,¦M6 LAB. V<6 LAB DRG 9Zmn1HMGM. mn1HM8

(108) , 3.1 G12". 480. R. D»¼½. 2011 9 ¼.

(109) ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍ MOIRCS ῍ῌ. MODS GOODS-N

(110) z phot 2.63.6 K 24.0 . !. 14)". 6. LAB

(111) 6.1. #

(112) $ SSA22 1011 %&'( . LAB . a $ SSA22 '1. )* GOODS-N 3 +,-./ 0". LAB /(b-.* 2 8. 1 2,.$ DRG . M6 345$. " SSA22-M1ῌM6 1 i*$ - R 20. 367 M1 8 2 +,-./ 0. Z LAB /EF. " DRG

(113) .

(114) 9:;,.$ M6 1. a i DRG * photo-z. *<=>/?2@AB CD&/4. /+0 * 20 Zi 15 Z+0". 5EF. ,.G;," - 1*$ H. 75q LAB $ K z ' ¡ /. *D& =>/IJ?2$ K/L. +0-.7," 4 ¢#7 LAB £T". MN705 . 4 ,IR$ _ LAB )) K. 5.3. 7". . z '¡/¤,+," 3z. SSA22 OPL*$ QF2,IR7 L.!. , 1" LAB . S /TU,. '¡ )/4 * LAB1 . LAB2 +," 15 Z LAB *¥T, K z '¡ ¦)*. VWR" L*KXY Z[/DU. 35 Z+0" 7$ LAB * LBG /*¥. $ OPL/K/S IR7\ . , / 9 Z+J$ -*§¨ kt. L>T, ]T, *. LAB *¥T,-./ k 0. DU^V/$ _ `.. " [ 'a IR. !u !u/. 7/$ DRG K photo-z '¡*. bc02," dL .. ," ©J K z '¡* kt. . $ 2 efLg. $c+ªT,. a i#. J(h," 2 efLij kl). « 0.03 Z. <&mn. 20 Zi 15 Z LAB z '¡/EF. 15). $ z3.1 opmT. ," T,.$ SSA22-M6 1 10. 10.5. %&'. 7¬n7," - IR $. ))Zz '¡/,U, +,.. ( )*2 efL 10qr. R-.*$ -/ LAB *¥. T,-.7," --$ d L*st. ,.R-.-*e," )) K z '. !u*opDU5v/0.:;. ¡/®¯ LAB *$ °±XY=>. ," s 1 wx >yz{V. ,IR7 ².}¡ ³b,. .:;|}$ db,IR7L*~. . P (turn-around) * 2 "V0. D&´.?µ. .," #$. 1/4 V0-.. 7" -*K/}¡. _. . $ _. 5.,". $ K z '¡/7 LAB 5. 7," Turn-around IJ V0|}*#$. Z+0" -*V<=>/?¶7'. *R6. ¡V.:;," ..7,·A/. s" %7V/$ . ;2 efL #$/ 115 & . ~. *QF 1/3 V0.:;,.$ 2 ef. 7". Le, 1010.5 %&'( 30qr. 6.2. / SSA22 OPLT2,.G;,". $ ¸7/U+, . . LAB . LAB *¥T, photo-z <& ¹2," 7$ º8IR-. » 104 ¼. »9½. 481.

(115) MOIRCS ῍ῌ ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍. E4. LAB ¢£ K ¤I¥ij%& ¦§ zphot¨2.6ῌ3.6 %&/$= LAB °±² XYC 23 ³´ N 3.1 / 180 kpc aµP /$ ¶· M=;B. ©ª«¬®/$ ¯ ¸Iq¹FGHI a JKL. LAB

(116) . D LAB12, LAB14. 3.1 . rsCD .7. LAB. #$ %&. '(ῌ 4)10 *+(ῌ. ,- 2)10 *+(ῌ./. 0123. LAB :. ῌ. #56 3)10 *+(ῌ/$7 10. '(ῌ,- 8. /$ 9. ';<=> ?@$ A8. BCD E 5 LAB. M= NOP FGHI a QR. S:T NUP ;V. WE/$ OE,- M= LAB '(ῌ,Z=XY [. XY. $ 8. 2, (LAB1, 2, 3, 5) \/ '(ῌXY. FGHI a JKLD]^XY_Z. [. [$ (LAB12, 14) `:M=ab. $. / cdFGHI a `:[e LAB. 1 ;f_g[h 4 4. LAB (LAB2, 3, 12, 14). X R/ijCD k= AGN 482. a QR. lmBnC. S:TXY 82, LAB. ;u. v_ 8D./[w_. t x. yz{|-,CD }~Z Z LAB Z. | _M7FGHI a. _,CD 8) ~. QR '(ῌ FGHI a JKL. ,[DZ . E 5 UE,- '(ῌXY ]^FGHI. 9. 11. 15 4. !". FGHI a QRopq. 1) p. ῎s16) , 2) CD'. [_ AGN `17) , 3) %& ῏ 18)/$ 88/ 1). FGHI. a QRph῍~!. . %&. 9/ h῍=.7 Y. p῎/s Y -D _-D 8 a QRp. #/'<. FGHI. S:TM=,-῍ (ῌ;¡. 8/Y S:TM=XY ]^ º»¼. 2011 ½ 9 ».

(117) ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍ MOIRCS ῍ῌ. >?@

(118). A!BC.)'

(119) LAB . D;EFGHIJ&' KLM . &

(120) NO PQ!RST UV 2!WL' . ; ?" &(&*

(121) X. !(( , Y

(122) 2 Z!.. P[@\]. KL ". 7. ῎ῌ῏ῌῑῐ῍ῒΐ ^_

(123) MOIRCS `Vab!

(124) . c&'

(125) d e 3.1 fg. 78h. i'P" #djk. K lmn op2Pqmrs (,

(126) photo-z DRG t@;fgum lV v!&

(127) * "#,(!&P" *. (,

(128) fg$ DRG +% /&'w45 2ῌ3 x(w .. ()P". (wy'. zG!8&';?{|2 " )* !. (w LAE % }V~#" D. P

(129) w! 20 LAB > 15 ! K lmn M. . (5

(130) * 410 (, 210 3 9. ·5. ¸ LAB HI¹m a ºk ³ 5" » LAB HI¹m a º k 0 ". 11. +!"&'P" LAB ,+ -&'5

(131) *,y'.M&' !8&'L, " /0;

(132) ^_ N:().

(133) . P K lmnopM d ey

(134) 0 ". . ;?". . 2 " op2P3 !:. ! " # $% . &'. ()''

(135). 4`Va1 ! MOIRCS. '45`Va1 !

(136) 4. * +(,- . " /

(137) LAB. MOIRCS 5

(138) 5'. 0 (,1

(139) 2 10 ῌ10 3. ! TMT 30 m 4 45S .

(140) LAB +-! " . 4/0 ;?". 11. 13. 45(562" LAB 78

(141). (,!8&'#. 4985: ;<=. < =>

(142) ª?/ «V. H¬

(143) ®¯°

(144) @AB± =>

(145) 6²¦³ =

(146) 6C´µ

(147) ²¶DE

(148) FGHI

(149) ?. " J 104 ¼. . ¡¢&P^_

(150) 678£ ¤9

(151) ¥:¦;§

(152) ¨©. J9½. 483.

(153) MOIRCS ῍ῌ ῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍῍.

(154) . !"#$%&'(. )*+ ῐ. ῏ MOIRCS ,-./0$123 45678. 9:';<=2>?$@'ABCDEFG*+ G. 9) 10) 11) 12) 13) 14) 15) 16) 17) 18). Tamura Y., et al., 2009, Nature 459, 61 Bolzonella M., et al., 2000, A&A 363, 476 Bruzual G., Charlot S., 2003, MNRAS 344, 1000 Franx M., et al., 2003, ApJ 587, L79 Totani T., et al., 2001, ApJ 558, L87 Kajisawa M., et al., 2011, PASJ 63, 379 de Propris R., et al., 1998, ApJ 503, L45 Goerdt T., et al., 2010, MNRAS 407, 613 Geach J., et al., 2009, ApJ 700, 1 Mori M., Umemura M., 2006, Nature 440, 644. 2 H5IJK7L=:M2NOP$Q RS .. !"#T>?UVWXJWYZ7M. 2;[GD2+ \$]^_W`MGD2+ aD:. bcdeG)f$Q gbhij13GD 2+ "#kl$123 U'mnoZp97 M2;[GD2+ qS7r3: st3ouC DEFG*+. ῎῍ῑῌ 1) Ouchi M., et al., 2005, ApJ 620, L1; vw 2004 x 11 vy 646 2) Shimasaku K., et al., 2003, ApJ 586, L111 3) Uchimoto Y. K., et al., 2008, PASJ 60, 683 4) Uchimoto Y. K., et al., 2011, submitted 5) Steidel C. C., et al., 2000, ApJ 532, 170 6) Hayashino T., et al., 2004, AJ 128, 2073 7) Matsuda Y., et al., 2011, MNRAS 410, L13 8) Matsuda Y., et al., 2004, AJ 128, 569; vw 2004 x 11 vy 628. 484. Massive Galaxies in the SSA22 protocluster at zz3.09 Yuka K. UCHIMOTO, Toru YAMADA Astronomical Institute, Tohoku University, Aoba, Aramaki, Sendai 980ῌ8578, Japan Abstract : We present the results of wide-field deep near-infrared imaging of the zz3.1 protocluster region in the SSA22 field taken by Subaru/MOIRCS. The observed area is characterized by the number excess of Lyman alpha emitters and Lyman alpha blobs. Based on the K-selected sample, we report the stellar mass distribution in the protocluster.. vw. 2011 x 9 v.

(155)

MOIRCSで探る赤方偏移3.1原始銀河団 大質量銀河の誕生

MOIRCSで探る赤方偏移3.1原始銀河団　大質量銀河の誕生