C o n f e r e n c e Z e t a f u n c t i o n s Z e t a f u n c t i o n s D e c e m b e r 1 - 5 , 2 0 0 8 , M o s c o w , R u s s i a . G e n e r a l . A n n o u n c e m e n t . P a r t i c i p a n t s . P r a c t i c a l d e t a i l s . P r o g r a m . T h e f i n a l a n n o u n c e m e n t , s c h e d u l e a n d l i s t o f p a r t i c i p a n t s a r e a v a i l a b l e . G o t o t h e L a b o r a t o i r e P o n c e l e t h o m e p a g e .
I r k u t s k N e u t r o n M o n i t o r D a t a B a s e D a t a b a s e o f I r k u t s k N e u t r o n M o n i t o r D a t a b a s e c o n t e n t s o f I r k u t s k n e u t r o n m o n i t o r d a t a s t a r t i n g f r o m 1 9 5 8 : H o u r l y d a t a u p f r o m J a n u a r y 1 9 5 8 ( I G Y - m o n i t o r u n t i l M a r c h 1 9 6 8 , t h e n 1 8 N M - S u p e r m o n i t o r ) . ...
L a l M a r a n d i n A : h o v e r { c o l o r : # F F 0 0 0 0 ; f o n t - w e i g h t : b o l d } . L a c i r c ; l M a r a n d i n 3@0D8O A A09B0 R E N 2 1 . n b s p ;
... v s ~ x Q n 1 x 5 n n Y E 0 @ n l 5 p = 1.35 = 8.2 IehlghklvihlhdZYg IehlghklvihlhdZYg IehlghklvihlhdZYg IehlghklvihlhdZYg +' kf +' ff 9 9 Emq _\ Zykdhjhklvdfk Emq _\ Zykdhjhklvdfk # ) R e A A d ! ! 3 V = - 21.4 2 3 = 1.35 9; Klj_evpZ kfebgby +2 +' kf ' Emq _\ Zykdhjhklvdfk ...
Synchrotron Radiation Emission from relativistic electrons gyrating round magnetic field lines. ... Different spectrum ( - optically thick - optically thin #" ! ... Can calculate radiated power from Larmor's equation. dipole pattern Mildly Relativistic Electrons Even for , relativistic beaming changes emitted spectrum significantly. Depar ture from dipole pattern and spectrum no longer a single emission line. gf !e d c 'b a` Y X h Ultra-Relativistic Electrons: Synchrotron Radiation B e v v|| v_ | ...
... k o g o ATk ?}g 4kf p{ e i m du R 4 e n |k4g o f} EkC? at { j ??? ho ?ne $E HE T f kz Uh no e 4{ho ? ho ?m j 4n j{ h}l 4? # l "? g do ?o w s 4 )q ng aTo k fw o 4e ?k o hm po |e h ~i 4 ?? nm ke l k $? ... l 4k R ng o Tl fh 2 fe )w h e h jz ne ?? ... 2 gG # 0 h @Q R g Q h g Q g Q f0 IB E @ 6 g Q R g Q t g Q $# g! $ f3 $E (3 e Gb wq % % x x Aqx q Aq q A# 4d c 6 C8 8 b 44% 4444x 444% 444% 444 4 4 q A 4 4 % A 4 4 % D# 0 q D# 0 D# 0 D# 0 u D# 0 D# 0 u D# 0 u D# 0 v w $! ...
... jy ~ p au hy 2q Ay Yx wv 4u aq 5r u a| 5y h~ nm l k 5i 5i ji u h g g ' x fe ' 'x d x 0 0x 8 1 x y x -6.4 -6.2 log (Ti/ Ntot ) log (Fe/ Ntot ) -5.8 -5.6 -5.4 - 5.2 -6 -5 1 1.5 2 Lower level excitation potential (eV) 2.5 3 3.5 4 4.555.5 -5.3 - 5.2 -5.1 -4.9 - 4.8 -4.7 -4.6 - 4.5 -5 1 2 3 Lower level excitation potential (eV) 4 5 6 7 8 9 10 11 q ts r Y{ az y q p p wv u o Y x Gs % If qe ' dp In e mk 3k e ...
... x y a d~ x y 0 Fu H} x 1| } a a| d f % y x y y F $ u v ~ "! ~ H | a d ay a~ } " H} | h y | ... h~ x ~ } ! x | x f~ x y ` | ... x { d Uy { S `u 7 d Fu "} u x vy 0 } zy x d| w ` ~ } } } Uy ` a} H} y| 2 s{ y r} } h ` d ay F } ~ ` F y y ay ~ } y ~ v 09 9 zt !...
... q z Wy p k Wp k U 1325 1330 1335 Energy (keV) 1340 {r ?z p {r bz jp R ( R qk p e Wr R y y t? {r vk z u m ? ... z - 0.04 - 0.02 Intensity ( rel . units ) Intensity ( rel . units ) 0.00 0.02 0.04 - 0.04 - 0.02 Intensity ( rel . units ) Intensity ( rel . units ) 0.00 0.02 0.04 0.06 0.08 E=1173.34 (0.58) FWHM = 2.76 ( 0.00 ) I=0.09 ( 0.04 ) 1165 E=1172.29 (0.84) FWHM = 2.76 ( 0.00 ) I=0.09 (0.05) 1165 1170 1175 Energy ( ...
... D i p hg f v e |V hH v Cr EG D v Cr d d EG D i b i i {z V pw vu 1t T E GT sP V v v Cr g T T FEG D y g i g b i b i i T T FEG D g i g b p qp on i b li F i jn fx u c g ig b i b i m lk T E GT P c g EG ...
... p p z o gn gn um H u j z F j j m 9 + p gp 9 j R? T9 $p 9 ~ m wY $ s zq DC i i o s 9 p 9 s j j h9 c B H hC RC jHj R r $@ T RC H j T9 p j RH $@ r F wd A@ g9 DH 9 gE ~ Ap DH 9 p Ap i T $p 9 Ap 9 H D p kE H Di D p RH C G@ 9 m~ Ap 9 T T RH A@ $ R F C j T R $ R A j H tj F j S tj 3 @ 8 9 DH 9 $ H D DH 9 $ 0j s 9 s DH o w Ap 9 j up 9 s ` R $@ T Ap 9 H hq RC H q j RH RH p j DH $9 E IC ?9 hC 3 l RH 9 R wE RS T9 Tp ? ...
... Table 4: Observation Summary Keyword/Value Pairs Column Name Visit-Exp # Rootname Target Name Camera Used/Prime Operating Mode Spectral Element Pattern Found in Header Keyword(s) PEP_EXPO ROOTNAME TARGNAME CAMERA PRIMECAM OBSMODE FILTER PATTERN Print Format c15 c9 c30 i1/i1 c10 c7 c16 5 Column Name Exposure Time per Iteration (sec) Number Iterations OBS1 PROC1 CAL1 Found in Header Keyword(s) EXPTIME NUMITER See "Data Quality Flags" on page 6. ... Table 8: OBS Keyword/Value Pairs Label Rootname Obs. ...