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1 . M m XS 2 2 (1 9 7 8) 2 1 3 T.Katayama et al IEEE Trans.NS 30 (1983) 2080 fffliA M m tiom%&¥ 2 (1 9 8 7 ) 5 1 2. T.Katayama Proceed,19th INS Sympo. (1990) P21 3. mam# 48 (1993 ) 966 T.Tanabe et al Nucl.Instrum and Methods A 307(1991)7 T.Tanabe et al Phys.Rev.Letters 70(1993)422 4. M.Tomizawa et al INS-Rep-922 5. M.G.White 8th Int.Conf.on High Energy Accelerator.CERN (1971)368 6. H.Fujikawa. K.Chida, A.Mizobuchi and A.Miyahara Proceedings of 8th International Vacuum Congress (1980) plBl-154 7. f-mmx ### 8 3R, 5 2#m, 5 6M 8. K.Chida and A.Mizobuchi, Vacuum 41 (1990) 189 6

25 9. K.Chida et al. Vacuum 44 (1993) 539 1 0. K.Chida et al. Proceedings of the 9th Symposium on Accelerator Science and Technology KEK (1 993) pi81

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Distributed Pump 200 1/s x 8 Roughing pumps Turbomolecular Pump 190 1/s, 500 1/s. Oil Diffusion Pump 100 1/s x 2 Mechanical Booster Pump 90 m’ / x 2 A? y y ->3. Rotary Pump 650 1/s x 2

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Total pump 16800 16000 30000 speed

P(S5)=3.0xl0'nPa (2.3x10'TTorr )

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beam energy: EO (MEV/u)

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26 Q1 Q2 Beam

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30 Recoil mass separators recently constructed.

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33 Fragment Mass Separator

Magnetic field + Energy degrader High energy

at focus point ( x I m) = D iM 2 + D2[Di( 5 |x) + (5 m) + 1 ] (x | 5 ) = DiM 2 + D 2 CD 1 ( <5 | x) + (5 5 )]

Eliminate energy dispersion

wedge shaped degrader DiM2 + D, = 1 : achromatic system Di(5 | x) + (5 | 5 ) = 1 : ( 5 | x) # 0

homogeneous degrader DiM 2 + D 2(5 | 5 ) = 0 : tuned system (5 I x) = 0

Resolution Rm = tf’jci - ( 5 | m)/ ( <5 | 5 ) -1/(5 | 5 )] R* = Pt[2 + (5 | q)/ (5 |5) -2/(5 | 5 )] (R(p = 1st stage energy resolution) independent of degrader shape

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2. W. H. Press, S. A. Teukolsky, W. T. Vetterling and B. P. Flannery, Numerical Recipes in Fortran, The Art of Scientific Computing , 2nd ed., Oxford University Press, 1992

3. W. H. Press, S. A. Teukolsky, W. T. Vetterling and B. P. Flannery, Numerical Recipes in C, The Art of Scientific Computing, 2nd ed., Cambridge University, 1992

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8 . Microsoft Corp., Fortran PowerStation Programmer ’s Guide, 1995

9. B. D. Hahn, Fortran 90 for Scientists and Engineers, Edward Arnold, 1994

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97 LINEAR WIDE TEMP INTEGRATED TYPES SE555, NE555 PRECISION TIMERS CIRCUITS BULLETIN NO.DL-S 12053, SEPTEMBER 1973-REVISED OCTOBER 1979

• Timing from Microseconds to Hours • Astable or Monostable Operation • Adjustable Duty Cycle JG OR R DUAL-IN-LINE PACKAGE (TOP VIEW) • TTL Compatible Output Can Sink or Source up to 200 mA CONTROL OIS- THRES-VOLT- « Designed to be Interchangeable with Vcc CHARGE HOLD AGE Signetics SE555/NE555

description The SE555 and NE555 are monolithic timing circuits capable of producing accurate time delays or oscilla ­ tion. In the time-delay or monostable mode of opera ­ tion, the timed interval is controlled by a single ex­

ternal resistor and capacitor network. In the astable GNO TRIG OUT- RESET mode of operation, the frequency and duty cycle GER PUT may be independently controlled with two external resistors and a single external capacitor. The threshold and trigger levels are normally two- thirds and one third, respectively, of Vqc - These levels can be altered by use of the control voltage terminal. When the trigger input falls below the trigger level, the flip-flop is set and the output goes high. When the threshold input rises above the threshold level, the flip-flop is reset and the output functional block diagram goes low. The reset input can override all other inputs and can be used to initiate a new timing cycle. When the reset input goes low, the flip-flop is reset and the output goes low. When the output is low, a low- impedance path is provided between the discharge terminal and ground. The output circuit is capable of sinking or sourcing urrent up to 200 milliamperes. Operation is specified for supplies of 5 to 15 volts. With a 5-volt supply, output levels are compatible with TTL inputs.

sras

7-101 Texas Instruments incorporated

98 - 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS

PIN ASSIGNMENTS (TOP VIEWS)

QUADRUPLE 2-INPUT POSITIVE NANO GATES 00 gj

positive logic: Y - AB 1A 11 IV Vcc 2V ZA IS SN5400 Ul SN7400 (J. Nl SN5400 (Wl SN54H00 IJ| SN74H00 (J. Nl SN54H00 (Wl SN54LOO Ul SN74LOO U. N) SN54L00 (T) See page 6-2 SN64LS00 (J, W| SN74LSOO IJ, N) SN54S00 (J, Wl SN74S00 (J. N)

QUADRUPLE 2 INPUT GNO ze SA 3V POSITIVE NANO GATES WITH OPEN-COLLECTOR OUTPUTS ZSH

positive logic: js GL Y - AB 1A IB IV Vcc tv ZA ze SN5401 (J) SN7401 (J. Nl SN5401 IW) SN54LS01 (J, W> SN74LS01 (J, N) SN54H01 (Wl SN54L01 (T)

Vcc *6 *A 4Y 38 1A 3Y

1A :6 IY 2A ZB IV GNO SN54H01 (J) SN74H01 U, N) See page 6-4

4Y 48 *A CND 36 3A 3Y QUADRUPLE 2 INPUT rq^U^f^n.- U7].r,-u POSITIVE NOR GATES 02

positive logic: Y - A+B nminiJiiriiriiAir 1A ie IV Vcc tv 1A ze

SN5402 Ul SN7402 (J. Nl SN5402 (Wl SN54L02 Ul SN74L02 U, Nl SN54L02 (Tl See page 6-8 SN54LS02 (J. W| SN74LS02U.NI SN54S02 IJ. Wl SN74S02 (J. Nl

1076 Texas Instruments INCORPORATED POST OFFICE BOX S012 • DALLAS. TEXAS 7S222

I 5-6

99 54/74 FAMILIES OF COMPATIBLE HL CIRCUITS

PIN ASSIGNMENTS (TOP VIEWS)

QUADRUPLE 2 INPUT POSITIVE NANO GATES WITH OPEN-COLLECTOR OUTPUTS 03

positive logic: TininiiliftiJIiJlif Y - AB 1A IB IV ZA ZB ZY

SN5403 |J| SN7403 IJ, N) SN54L03 {J) SN74L03 (J. N) See page 6-4 SN54 LS03 I J. W) SN74LS03 (J. NI SN54S03 IJ, W) SN74S03 (J, N)

Vrc SA 6Y SA 5Y «A 4V iv U «V GNO *V M 4V HEX INVERTERS 04 W P A •• ■ A

positive logic: Y - A Pi Pi Pi r4 Pi liJiininiiTiniriif 1A IV ZA ZV ZA ZY GNO 1A ZY ZA Vcc ZA ZY AA

SN5404 (J) SN7404 IJ. N) SN5404 (Wl SN54H04 (J) SN74H04 IJ, N) SN54H04 (Wl SN54L04 (J) SN74L04tJ.N) SN54L04 (Tl See page 6-2 SN54LS04 IJ. Wl SN74LS04 IJ, Nl SN54S04IJ.W) SN74S04 IJ, Nl

iv «a rr gno sv &a 4v HEX INVERTERS WITH OPEN-COLLECTOR OUTPUTS t>J 05 A A

positive logic: r4 Y - A n.!jijii?TijLn?.n'rL!.r 1A IV ZA ZY ZA ZY GNO 1A ZY ZA Vcc *A ZY

SN540S IJ) SN7405 IJ, Nl SNS40S (Wl SN54H05 (J) SN74H05 (J, Nl SN54H05 (Wl See page 6-4 SN54LS05 (J, Wl SN74LS05 (J. Nl SN54S05 (J, Wl SN74S05 IJ. Nl

HEX INVERTER BUFFERS/DRIVERS WITH OPEN COLLECTOR ^ffibR-VOLTAGE OUTPUTS

positive logic: Y - A

See page 6-24 SN5406 (J. W) SN7406 (J, N)

1076 Texas Instruments INCORPORATED POST OFFICE BOX S012 • DALLAS. TEXAS 7S222

I 5-7

100 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS

PIN ASSIGNMENTS (TOP VIEWS)

vcc «* nr m iy *a 4v HEX BUFFERS/DRIVERS WITH OPEN-COLLECTOR HIGH-VOLTAGE OUTPUTS 07

positive logic: Y - A ^ininininirtinif IA IV 2A TV 1A JV GNO See page 6-24 SN5407 (J, Wl SN7407 (J. Nl

QUADRUPLE 2 INPUT POSITIVE AND GATES

08

positive logic: Y - AB

SN5408 (J. Wl SN7408 (J. Nl SN54LS06 (J. Wl SN74LS08 (J. Nl SN54S08 (J, Wl SN74S08 (J. Nl See page 6-10

Vcc « «A 4Y JS JA 3Y QUADRUPLE 2-INPUT POSITIVE AND GATES WITH OP^i-COLLECTOR OUTPUTS (J!

positive logic: Y - AB SN5409 (J.W) SN7409 (J, Nl SNS4LS09 (J, Wl SN74LS09 IJ. Nl SN54S09 (J. W| SN74S09 (J. Nl Seepage 6-12

TRIPLE 3-INPUT POSITIVE-NAND GATES 10

positive logic: Y - ABC

SN5410 Wl SN7410 IJ, Nl SN5410 (Wl SN64HL0 (Jl SN74H10 W. Nl SN54H10 IWI SN54L10 Wl SN74L10 IJ, Nl SN54L10 IT) See page 6-2 SN54LS10 (J. Wl SN74LS10 (J, Nl SN54S10 W, Wl SN74S10 IJ, Nl

1076 Texas Instruments INCORPORATED POST OFFICE BOX SOI* • DALLAS. TEXAS 75222

I 5-8

101 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS

PIN ASSIGNMENTS (TOP VIEWS)

QUADRUPLE 2 INPUT POSITIVE-OR GATES 32

positive logic: Y-A+B

SN5432 (J, Wl SN7432 (J, N) See page 6-28 SN54LS32 (J. W) SN74LS32 (J. N) SN64S32 (J. W) SN74S32 (J, Nl

QUADRUPLE 2 INPUT POSITIVE NOR BUFFERS PEN-COLLECTOR OUTPUTS 33 %

positive logic: Y - A+B SN5433 (J. W) SN7433 IJ. Nl SNS4LS33 (J. Wl SN74LS33 (J. Nl See pages 6-24 and 6-26

VCC 4« 4A 4Y * 3A 1Y QUADRUPLE 2-INPUT POSITIVE NANO BUFFERS 37

positive logic: Y-AB Tjjiiniiiin±ri±riir 1A la IV 2A is ZV CND SN5437 IJ, W) SN7437 (J. NI See page 6-20 SN54LS37 IJ, Wl SN74LS37 IJ. Nl SN54S37 I J, W| SN74S37 IJ.NI

Wc «S «A IV » 1A IV QUADRUPLE 2-INPUT POSITIVE NANO BUFFERS PEN-COLLECTOR OUTPUTS 18 =D]I pOj ‘iininSrilnSF positive logic:

Y-AB 1A IS IV 2A 2S ZV CNO SN5438 IJ, Wl SN7438 IJ. Nl SN54LS38 IJ. Wl SN74LS38 IJ, Nl SN54S38 IJ, Wl SN74S38 IJ. Nl See pages 6-24 and 6-26

1078 Texas Instruments INCORPORATED post o 'picc eox son s oallab . tcxab ?saaa

I 5-13

102 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS

PIN ASSIGNMENTS (TOP VIEWS)

BCD-TO-SEVEN-SEGMENT DECODERS/DRIVERS

46 ACTIVE-LOW, OPEN-COLLECTOR, 30-V OUTPUTS

47 ACTIVE-LOW, OPEN-COLLECTOR, 15-V OUTPUTS ■ C LTABQAI

tMPI/TI PUT PUT MUrt SNS446A IJ, W) SN7446AIJ, Nl SN54L46IJ) SN74L46U.NI SN5447A (J. W> SN7447A (J, Nl See page 7-22 SN54L47 (J) SN74L47 (J. Nl SN54LS47 (J. W) SN74LS47 (J. Nl

BCD-TO-SEVEN-SEGMENT DECODERS/DRIVERS

48 INTERNAL PULL-UP OUTPUTS yi l rrrT

• c it mob * o a PPTii linirijniilimtirtLr x > C/ LAW M M* v0 A ^ CNO

PPUT1 M W MVTI

SNS448 (J, W) SN7448 IJ, Nl See page 7-22 SN54LS48 (J, Wl SN74LS48 IJ, Nl

BCD-TO-SEVEN-SEGMENT DECODERS/DRIVERS JWUWIR L, 49 OPENCOLLECTOR OUTPUTS IttM

1 r—P r n^riLriinirLininir \ 6 ^ C / M.AMA- x 0 * j e CMO

wputi nerurs outputs

SN5449 (W) See page 7-22 SN54LS49 (J, W) SN74LS49 (J, Nl

1076 Texas Instruments INCORPORATED POST OFFICE BOX 5012 • DALLAS, TEXAS 75222

I 5-15

103 - 54/74 FAMILIES OF COMPATIBLE TIL CIRCUITS

...... ULj'TnrrmBtisw«yMu PIN ASSIGNMENTS (TOP VIEWS)

256-BIT READ-ONLY MEMORIES

32 8-BIT WORDS OPEN-COLLECTOR OUTPUTS

ace POt POT

Sea Bipolar Microcomputer Component! Data Book. LCC4270 WEfWWW

SN5488A (J, Wl SN7488A (J.NI

64-BIT READ/WRITE MEMORIES

16 4-BIT WORDS

See Bipolar Microcomputer Components Data Book, LCC4270 ada HT WF at i T6i o«i Col owe SN7489 (J,N)

ECADBCOUNTERS

SO JolVIDE-BY-TWO AND DIVIDE-BY FIVE

SN5490A (J, W) SN7490A (J. N) SN54L90 (J, T) SN74L90 (J, NI SN54LS90 U. Wl SN74LS90 (J. N)

NC — No Internal connection

1076 Texas Instruments INCORPORATED POST OFFICE SOX SOI* • DALLAS. TSXAS 79**1

I 5-27 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS

PIN ASSIGNMENTS (TOP VIEWS)

DUAL MONOSTABLE MULTIVIBRATORS

SN74221 (J.NI SNB4LS221 IJ.WI SN74LS221 (J. N)

ASYNCHRONOUS FIRST IN, FIRST OUT MEMORIES

225 16 6-BIT WORDS

Data Book, LCC4270 SN74S22S (J. N)

4-BIT PARALLEL LATCHED BUS TRANSCEIVERS

3-STATE OUTPUTS

Tinimniniiiininir era si *i *i *i *• oca* c*o

7-345 SN54S228U.W) SN74S226 (J, N)

OCTAL BUFFERS/LINE DRIVERS/LINE RECEIVERS

INVERTED 3STATE OUTPUTS

SN64LS240 (Jl SN74LS240 (J, N) SN54S240 IJI SN74S240 (J. N)

1076 . Texas Instruments INCORPORATED POST Office BOX soil • DALLAS, TEXAS 7*322

I 5-54

105 - K/v

8

^ v -y 4 'C 8 y Z

i I

- ylo> NEXT PAGE(S) left BLANK filH

1995^3 ft 15 0

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3.1 Ethernet 3.2 IP(<>^-^ y h ■7'Ph nib) (7) WS **y b 7L-C, # *# t HRW4<73&t Ethernet t?*-6o EA^tX/M . IP TK l/X CtV'ft, S-$<7) WS3£B£, Ethernet I:# ip 7k i/xii 4 /'>-A'^iIL, F7>y- '>-/<«* 0fttt tcSfflXA^E- -i77’* y b I:i I), IP 7K 1/X<0*X bSJSco W~C£) *9, t i> -mx$> Z> 0 # flOTy b 7-7*&5 b4(l mix if, 7 > b li 500m it1), #/)M - b'MgE#li XT-li 133.11.0.0 tV'-9#a±#|:#|l)#t 2.5m "Cife^io bfltz B 77X<0—5i5£, *y b 7-7515 3 • 10Base-2(Thin Ether) /Mb, -tXb®P''MfcLtfffllTV> 7--7';W09T5E?-7x-i|;M«o b 7 >v-/s# ^•t/c^lc-9-X ’^y b vXX^IsEbo BS^-v tfeli WS CO 10Base-2 Ethernet d- ^ 7 — >/ b (1 -tr y > b li 185m i T), #/h y - K Mmmii 0.5m & . • lOBase-T(Twisted-Pair) 4.1 SCt lOBase-T fflcO^'/fc vMH®£fflV\ • ?-y b 7-7^WS $r##f^l:li, *y b tSM Twisted-Pair 7-X^TX7-Ml:# 7-7 #m# i:f(o#

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- ry * & h y- b7MV MX bti OS t7)T>x b fz IP TK l/Xx b -iHa-tt 'Jrt

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Ethernet ifconfig leO 133.11.131.12 netmask 255.256.255.0 • rat -fc T 7 y h t:## $ tlT v>£*x h ktifijEIfm^o 1I/-T broadcast 133.11.128.265 up * yy • -r-7,;VT*l±jg|t)5fe(T- h 7 ifconfig nvy K<7)5||8:('-a l±6^-S#kE35tL^,o • #(7) Ethernet -bT y h , B#4- f

> ifconfig -a y / TV'^> Ethernet ~t T > y h ti £ 71' — inet 133.11.139.10 netmask ffffffOO broadcast 133.11.139.255 TA'-ffy/ • -r-TVHiEgtiTbmi-co, loO: flags=49

::t, loO tv'o '[>*- ;l/ h )]/— V t LXfemtZ>XttfX%Z>o

TvSt)*, diUirat WSrt<737pn'bx[H]±^il route 7vy Y <) XsbZo i9-f& t & £>& o route add|delete [host|net] destination

[gateway [metric]]

4.3.2 M'MtZ7 T 1 JlsOWLfc ±4r3HkO*l*l±^oai)-C**o

1. /etc/hosts • add [delete IP TK UXKUfrX hfefcg*-** „ ^-ffy/ • f-7;w:x.y h v £ii W 133.11.131.12 hosta tint" h 2. /etc/hostname.le? • host|net t -f y T — 7 jl — X X h :&£• J-y h V 5** y h 7-^(:CV'T<7)t<7) *o 7»\ tKX c: tlli destination d'tfJBrT#&OT, cat /etc/hostname.leO hosta • destination j@1ElW0*-y h 7-?, £*li*Xh 4.3.3 JU—?<>7

&#]#-*-&& o f<7)1# • gateway d yy • Jr — ~f)VX JU-7- (y- h 73-4) <7) IP T K l/X

- 116 netstat y K (O##)# hosta*/. netstat -rn Routing tables Destination Gateway Flags Refcut Use Interface 127.0.0.1 127.0.0.1 UH 3 65595 loO default 133.11.131.1 UG 2 258026 leO 133.11.131.0 133.11.131.12 U 70 814097 leO

)H7toE L < -k ^SE"t>E,= Cti • metric 6(07-77 Kli, X y b V-^yiSffl^tcjEL < b nmMi-z>$X'

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117 traceroute 3V7 K traceroute kekux.kek.jp traceroute to kekux.kek.jp (130.87.34.2), 30 hops max, 40 byte packets 1 insgel.ins.u-tokyo.ac.jp (133.11.139.1) 2 ms 1 ms 2 ms 2 133.11.141.9 (133.11.141.9) 4ms 4ms 4ms 3 ra06.nc.u-tokyo.ac.jp (133.11.125.17) 10 ms 11 ms 12 ms 4 ra07.nc.u-tokyo.ac.jp (133.11.126.7) 12 ms 11 ms 12 ms 5 192.41.197.15 (192.41.197.15) 9 ms 9 ms 9 ms 6 nee-nacsis.bb.sinet.ad.jp (150.99.101.1) 16 ms 16 ms 16 ms 7 kek-chiba.sinet.ad.jp (150.99.99.14) 12 ms 19 ms 12 ms 8 202.13.223.209 (202.13.223.209) 23 ms 23 ms 23 ms 9 kekcis2.kek.jp (130.87.43.4) 22 ms 28 ms 22 ms 10 kekcis-lirewall.kek.jp (130.87.43.1) 23 ms 23 ms 24 ms 11 kekux.kek.jp (130.87.34.2) 26 ms 26 ms 26 ms

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