ࡱ> y Ibjbj 7n{{@2$$$8\\<$K]((DDD6U$y\\\\\\\$_bf\\DD]I!I!I!DD\I!\I!I!gQYD.<99v"W\]0K]W@ccYYcYI!\\ K]c : Date: May 23, 2012 RE: Dual wavelength single crystal X-ray diffractometer Dear Potential Respondent: The University of Oregon (University), is seeking a dual wavelength single crystal X-ray diffractometer for use at the Universitys Chemistry Department. The University currently has the X-ray diffraction facility to study structure of different materials (single crystals, powder, thin films) by X-ray diffraction methods. This letter does not constitute a solicitation for bids or an offer of a contract. Responses will not bind you to the University (or the University to you) contractually or monetarily, or in any other way. Please do not respond exclusively by telephone or merely by sending marketing brochures. Please feel free to make suggestions, in addition to responding to the questions. Please submit your responses Lev Zakharov, lev@uoregon.edu by no later than June 8, 2012. Responses submitted after this date may be considered if the University, in its sole discretion, deems appropriate or desirable. Once the University receives all information it wishes to obtain, it will evaluate the information and determine whether to negotiate with you. The University may negotiate with no vendors, one vendor, or more than one vendor. It is the Universitys intent to purchase the components and services it deems, in its sole discretion, to provide the best value to the University, though the University may choose to purchase no components or services. Price will be one of many factors considered in any purchase. The factors considered are not limited to those addressed in this letter, the responses to this letter, or any other inquiries the University might make and responses it might receive. The University reserves the right to request equipment demonstrations, if in its sole discretion, the University determines that equipment demonstrations are in its best interest. The University is under no obligation to share additional information with you beyond that contained in this letter but may do so if the University, in its sole discretion, deems it advantageous. It is hoped that the result of this process will be a binding contract between the University and a vendor. The resulting contract, if any, will be in the form of the draft contract enclosed with this letter. If you have questions, concerns or proposed revisions to the form contract or to any of the terms and conditions contained in the attached contract, you must address those in your response. If you do not address your questions, concerns or proposed revisions in your response, the form contract and the following terms and conditions in the attached agreement will be non-negotiable and will not be subject to revision: Sections: 11 through 17. The University is seeking information to use in negotiating the acquisition of a dual wavelength single crystal X-ray diffractometer. Purpose: The University requires a high-end dual wave single crystal X-ray diffractometer to supplement research performed with existing X-ray diffractometers, add new functionality and expand analytical capabilities in the Chemistry Department. The diffractometer should be suitable to collect data and refine structure to publication quality on samples of inorganic, organic and organometallic compounds. The new system requires the capability to provide absolute stereochemistry on light atom compounds. A Cu source/optics on the new diffractometer provides much more intensive flux and satisfies the requirement for screening and collecting data on very small and weakly diffracting crystals. Respondents may offer, but must specify, equipment previously used for demonstration purposes, only if less than 30 months old and covered by standard or extended warranty which will commence upon installation of the equipment. The following is a list of MANDATORY features and parts required on the requested dual wavelength single crystal X-ray diffractometer: 1. Dual wavelength system with microfocus Mo and Cu sources with special multilayer optics and/or sealed X-ray tubes and a monochomator kit. The system shall be complete system for the collection of data on single crystal samples, and their structural solution, refinement and publication output. The system shall include a stable micro-focus X-ray sources and/or sealed tube and appropriate generators, a precision kappa-goniometer, two simultaneously mounted X-ray sources for copper and molybdenum, each with high intensity optics, two-dimensional CCD detector, an integrated video camera for viewing a magnified image of the sample, an environmental safety enclosure, and a host computer with all needed software for data collection, data reduction, structure solution, refinement and publication output. It shall further include a low temperature device for cooling the crystal sample, and a heat exchanger for cooling in case of the X-ray tube, and a cooling system for CCD detector and micro-focus X-ray sources if it is needed. The system offered shall have demonstrated capability to collect data and refine structure to publication quality on samples typical minerals and inorganic, organic and organometallic compounds. The system shall have demonstrated capability to provide absolute stereochemistry on light atom compounds, providing publication-quality Flack parameters. The system shall be offered as a complete system and fully installed. 2. Charge-Coupled Device area detector for Single Crystal X-ray Diffraction (CCD), including an appropriate cooling system, with either of the following specifications: 4K CCD chip and an imaging area of 62 mm x 62 mm with 1:1 demagnification (no fiberoptics reductions) for optimum signal-to-noise and minimal distortion in the image, The CCD shall be coupled with the phosphor screen with fine partial resolution no greater than 75 microns full width half maximum, with sensitivity of 170 electrons per Mo X-ray photon, and 85 electrons per Cu X-ray photon. It shall be possible to switch between Mo and Cu automatically without user intervention or switching of phosphors. The 4k CCD chip shall be deeply cooled to -60 degree C, leading to a dark current less than 0.01 electron per pixel-second and signal-to-noise for a single X-ray photon (Mo) of 20:1, to enhance data at the limit of the diffracting ability of the crystal, or in being able to solve very tiny or poor quality crystals. The full well capacity of the CCD shall be at least 750,000 electrons, leading to a true dynamic range of the detector greater than 50,000. The CCD detector shall be read out at all four ports maximum throughput. 2K CCD chip and with detector window of 135 mm (with active area of 95 x 95 mm) and fiber optic ratio 2.0:1; sensitivity of 180 electron per Mo X-ray photon and 65 electrons per Cu X-ray photon; It shall be possible to switch between Mo and Cu automatically without user intervention or switching of phosphors; dynamic range greater than 50,000; dark current less than 0.05 electron per pixel-second; the chip shall be cooled to -40 degree C; the number of readout ports shall be 4; temperature stability shall be +-0.05 C, microprocessor PID; pixel size on Scintillator 1x1 binning shall be 48 (m; pixel size on Scintillator 2x2 binning shall be 96 (m; 3. High precision kappa-goniometer. Full four axis instrument for flexible sample orientation and complete data collection to high theta values at very small crystal-to-detector distance, Computer controlled and motor driven Detector DX motion, Collision protected, in hardware and in software, Completely integrated with supplied data collection strategy software, Five Computer-controlled Motions: - DX (sample to detector distance) - Kappa axis - 2Theta axis - Omega axis - Phi axis: n x 360 Positioning accuracy 2Theta, Omega, Kappa: 0.01 or better, Phi: 0.02 or better, Resolution 2Theta, Omega 0.0003 or better, Kappa. Phi 0.0006 or better Reproducibility: 0.005 or better for 2Theta, Omega, Kappa, 0.01 or better for Phi Sphere of intersection of axes: 10 microns or less 4. Micro-focus X-ray sources and/or sealed X-ray tube with either of the following specifications: Compact microfocus X-ray Mo and Cu sources 30 W (45 kV, 0.65 mA) or 50 W (50 kV, 1 mA) with multilayer optics, air or water cooled; Compact microfocus Cu X-ray sources 30 W (45 kV, 0.65 mA) or 50 W (50 kV, 1 mA) with multilayer optics and a sealed X-ray Mo tube and a monochomator. Any Cu source/optics combination must provide at least 75 times the intensity of Cu-sealed X-ray tube with a flat graphite monochromatic optics, in order to satisfy the requirement for screening and collecting data on very small and weakly diffracting crystals. 5. X-ray Generator(s) for micro-focus X-ray sources and/or sealed X-ray tube. Appropriate X-ray generators shall be provided for micro-focus X-ray source(s) and/or a sealed X-ray tubes. 6. Oxford Cryostream 700 Series low-temperature device (60HZ, 80-400 Kelvin). The low temperature device shall mount with two-dimensional detector with minimum obstruction of the detector and minimum shadowing of the detector. It shall include capability for monitoring and control temperature from software. Temperature range shall be 80 degrees K up to 400 degree K, and temperature stability of 0.1 degree K. The system must include Cryostream Coldhead, Programmable Temperature Controller, Diaphragm pump, Tubeset and Coldhead Cable, Reactivation Heater and Pumping Adapter, AD51 Dry Air Unit, Varibeam Coldhead Support Stand, (2) Line Drier Units, 60 Liter LN2 Dewar. 7. Color Video Camera for high magnification display of crystals. 8. Cabinet/enclosure for X-ray sources, goniometer and detector. The system shall include an environmental enclosure with visible signals for interlock status. The X-ray shutter shall be interlocked to the door such that the instrument shutter can be opened only if all safety panels are in place, or the instrument is operating under the supervision of a trained user who possesses the override key or password. 9. Appropriate air or water cooling system for X-ray tube, microfocus sources, CCD detector. Appropriate cooling systems for micro-focus X-ray sources and/or a sealed X-ray tube, a CCD detector and other parts shall be provided if they are needed. 10. PC computer(s) and Software Suite, providing the full management for data collection, integration of the X-ray diffraction data, solution and refinement of crystal structure and publication output. The software provided with the system shall be a complete suite of well tested and user proven software for the data collection, integration of CCD image data on single crystal. The software shall include proven absorption correction routines which work for very highly absorbing compounds. Absorption correction by numerical face indexing and by semi-empirical methods shall be provided. The ability to apply absorption corrections to multiply twinned components shall be provided. The software shall be able to work with twinned and split crystals. The software shall provide output data directly compatible for input to crystallographic software used for crystal structure solution and refinement including SHELXTL. Software for automated structure solution and refinement for organic and coordination compounds shall be included. 11. Manuals Comprehensive package of operation manuals (software and hardware, hard copy or on CD-ROM) 12. Standard crystal mounted on a goniometer head 13. Warranty University requires, at a minimum, a one-year warranty for the dual wavelength single crystal X-ray diffractometer system. This particular warranty shall be personal to the respondent, regardless of whether the respondent is the manufacturer, producer, or supplier of the hardware, software or system. University prefers warranties that include all parts, labor, travel, and warranty work is performed on-site. 14. Support Spare parts shall be stocked in the USA. The ability to provide field service shall be demonstrated by provision of a list of field engineers in the USA. The service department shall offer optionally professional training courses for users in maintaining and trouble-shooting CCD technology systems. In your response to this letter please provide the following information: Description of how your Dual wavelength single crystal X-ray diffractometer meets all of the requirements listed under Section A above. The requirements listed under Section A, are intended to be inclusive of every element of a dual wavelength single crystal X-ray diffractometer. Provide reference information to include; name, address, telephone number, email address for at least three educational institutions, in the USA, for which vendor provided similar dual wavelength single crystal X-ray diffractometer required under this alternative procurement. Product name Model number Whether you are a: developer and manufacturer or a distributor If you are a distributor, describe in detail what would be provided by the developer or manufacturer and what would be provided by you List the hardware and software that is included in your configuration and provide a price quote for the configuration Identify the list price (in US $) for the system specified above Specify consumable items by listing part numbers and cost. Description and structure of rebate or payment incentives offered by respondent. Identify the type and length of warranty provided for the purposed equipment. Response shall state items included in the warranty such as parts, labor, travel and whether warranty work is performed at onsite (at University). Describe any extended service/maintenance contracts you offer, including an overview of the terms and current pricing in one year increments. Responses shall describe preventative maintenance inspections, applicable software updates and upgrades as part of their service/maintenance schedule. Response shall address whether any parts or components are prorated by hours of use; for those items, response shall list part numbers, cost of parts, life expectancy, and method of clocking time Do you charge for telephone support after the expiration of the warranty period? Describe any other options available to the University for the repair of the diffractometer system Describe any technical support you provide to your customers when they need assistance. Describe any operational training available. Responses shall include plan for training University users. Responses shall state whether training will be on-site, at the proposers demonstration site, or a combination of both. These plans should address basic hardware operation, applicable software operation, safety, cleaning, troubleshooting and to what extent training is included in the purchase price. Preference will be given to responses which include on-site training at the University of Oregon for an unlimited number of users. Describe availability to provide, deliver and fully install the dual wavelength single crystal X-ray diffractometer. Describe any special delivery or installation requirements. Provide any other information, documents, or materials you wish. Responses to this letter will be retained by the University for a required retention period and made a part of a file or record that will be open to public inspection. If a response contains any information that is considered a trade secret under ORS 192.501(2), you must mark each page containing such information with the following legend: TRADE SECRET. The Oregon public records law exempts from disclosure only bona fide trade secrets, and the exemption from disclosure applies unless the public interest requires disclosure in the particular instance. Non-disclosure of documents or any portion thereof or information contained therein may depend on official or judicial determinations made pursuant to law. An entire response to this letter marked as trade secret is unacceptable, and the response will be returned to you for modification. Responses to and questions about this procurement should be directed to Lev Zakharov, email:  HYPERLINK "mailto:lev@uoregon.edu" lev@uoregon.edu, phone (541) 346-4620, or fax (541) 346-6854. Thank you for your prompt attention to this letter and your interest in the University of Oregon. Sincerely, Jim Rasmussen Buyer, Department of Chemistry University of Oregon (541) 346-4699, fax (541) 346-4643  HYPERLINK "mailto:jdr@uoregon.edu" jdr@uoregon.edu     Page  PAGE 4 of  NUMPAGES 6    MNOUjlm¸̫ٞ̑wj]PCPjhIuhZ&{OJQJ^JhIuheOJQJ^JhIuhPOJQJ^JhIuhWIOJQJ^JhIuh OJQJ^JhIuhJOJQJ^JhIuh;yOJQJ^JhIuheOJQJ^JhIuhi/oOJQJ^JhL6OJQJ^JhIuOJQJ^JhIuhfzOJQJ^JhIuh+OJQJ^JhIuh9lOJQJ^Jh2zh9lOJQJ^JNPkl  9:RS} 7$8$H$gdN= $^a$gdd# 7$8$H$gdIu^gd~] & Fgd~]/gdN 0^`0gd;y 0^`0gde   H I f i s w x ~  $ 1 ̿~tgZM@M@hIuhVVOJQJ^JhIuhOJQJ^JhIuhWIOJQJ^JhIuh'OJQJ^JhHOJQJ^JhIuhTOJQJ^JhIuhDYOJQJ^JhIuhJOJQJ^JhIuh8{OJQJ^JhIuhi/oOJQJ^JhIuhPOJQJ^JhIuhfzOJQJ^JhIuhH>OJQJ^JhIuheOJQJ^JhIuhUOJQJ^J  BK8: E]%;BCQSźųŦ|n|ahIuh~]OJQJ^JhIuhJ5OJQJ^JhIuhdV5OJQJ^JhIuh5OJQJ^JhIuhi/o5OJQJ^JhIuhWIOJQJ^J hIuhZ&{ hIuhNh< hIuhi/ohIuhZ&{OJQJ^JhIuhNOJQJ^JhIuhi/oOJQJ^JhIuhF3OJQJ^J S\+M[oNO $.~澰yk[kMkhIuh:GOJQJ\^JhIuhl~5OJQJ\^JhIuhl~OJQJ\^JhIuhOJQJ^JhIuh:OJQJ\^JhIuhZ&{OJQJ\^JhIuhJOJQJ\^JhIuh_OJQJ\^JhIuhd#OJQJ\^JhIuh:OJQJ^JhIuhJOJQJ^JhIuhd#OJQJ^JhIuhYrOJQJ^J}~:;!!$$$$$T%%%&(&K&X&f&s& & F!7$8$H$gdG 7$8$H$gdl~~ +(.;>seseseWsIhIuhpOJQJ\^JhH5>*OJQJ\^Jh<5>*OJQJ\^J!hIuhl~5>*OJQJ\^JhIuhl~5>*OJQJ^JhIuhl~5OJQJ\^JhIuhL6OJQJ\^JhIuhZ&{OJQJ\^JhIuhl~OJQJ\^J!h &h:5>*OJQJ\^J!h &hl~5>*OJQJ\^Jh &hl~5OJQJ\^J!!!!! """E"J"I$J$$$$$$$q'{''''''Ⱥ{n{`h<5>*OJQJ\^JhIuh<OJQJ^JhIuhl~OJQJ^J!hIuhl~5>*OJQJ\^JhIuhl~5OJQJ\^J! jmhIuhl~OJQJ\^Jh<hpOJQJ\^JhH>*OJQJ\^JhIuhpOJQJ\^JhIuhb&OJQJ\^JhIuhl~OJQJ\^J!s&&"'''((((,)-)8*9*****J+K+----&.'. 7$8$H$gdl~ 87$8$H$^8gdG & F"7$8$H$gdG 7$8$H$gdl~' (((((( (!(((2(8(9((((()))))))+),)-)g)l)9*=************ҹҹҹҹҹǫҫҝҫҫҏqҝҝqfhl~OJQJ\^JhIuh:GOJQJ\^JhIuhl~5OJQJ\^JhIuh:OJQJ\^JhIuh5OJQJ\^JhIuhOJQJ\^JhIuh(WuOJQJ\^JhHOJQJ\^JhIuhl~OJQJ\^J!hIuhl~5>*OJQJ\^JhH5>*OJQJ\^J(*J+R+x-y-------&.////000L14444 555E5F5K5U5666666ynyhIu5OJQJ^JhIuhl~5OJQJ^JhIuhTOJQJ^JhIuhT5OJQJ\^J!hIuhT5>*OJQJ\^JhIuhjOJQJ\^JhIuhl~5OJQJ\^JhIuhl~OJQJ^JhIuhl~OJQJ\^J!hIuhl~5>*OJQJ\^J$'.////00L1M11323~33)4*44444 55E5F5T5U56677gdl~ 7$8$H$gdl~671828X8}8~888999:::+::::E<<<>=s=t======Ⱥyyyl_RlRlRlRhIuhTOJQJ^JhIuhFOJQJ^JhIuh7OJQJ^JhGhOJQJ^JhGh}` OJQJ^JhIuh:OJQJ^JhIuhvOJQJ^JhIuh8{OJQJ^JhIuh8{5OJQJ^JhIuhF5OJQJ^JhIuh 1OJQJ^JhIuhl~OJQJ^JhIuhl~5>*OJQJ^J71828}8~89:::;;<E<<<=??S@@B & F7$8$H$gdIu$ & Fd@a$gd7 & F gdIu & F gd8{ & Fgdv & FgdIJ~gd8{gdIugdl~=====?=@S@T@@@@AGBBBBBB@CAC{C|CCCCCGvGwGG׽䰽䉣reTe!jhIuhYOJQJU^JhIuhYOJQJ^JhIuhNOJQJ^Jh8{OJQJ^JhIuh}` OJQJ^JhIuh:OJQJ^JhIuhFOJQJ^JhIuh7OJQJ^JhIuh8{OJQJ^JhIuh &OJQJ^JhIuhIuOJQJ^JhIuOJQJ^J!hIuhT5>*OJQJ\^JB@C}CCC'E(EGGGG?H@HAHLHMH[HzHHHHHgdq, $d@a$gdD $d@a$gdYgdN^gdIu & F gd8{ & F 1$7$8$H$gd}` GGGGGGAHHHHHHHHHHHHHHHHHHIIII I IIIIIIIIھھڤzzhIJ~5mHnHu hD5jhD5UhDh.<jh.<Uh2zh,OJQJ^JhIuhi/oOJQJ^JhIuhYOJQJ^JhIuhY0JOJQJ^J!jhIuhYOJQJU^J'jhIuhYOJQJU^J$HHHHHHHHIIIII $d@a$gdD--$a$gdq, 51h:pBU;0/ =!8"8#8$8% DyK lev@uoregon.eduyK .mailto:lev@uoregon.edu^2 666666666vvvvvvvvv66666686666666666666666666666666666666666666666666666666hH6666666666666666666666666666666666666666666666666666666666666666662 0@P`p2( 0@P`p 0@P`p 0@P`p 0@P`p 0@P`p 0@P`p8XV~_HmH nH sH tH D`D Normal*$CJ_HaJmH sH tHDA D Default Paragraph FontVi@V 0 Table Normal :V 44 la (k ( 0No List 2o2 WW8Num1z0OJQJ2o2 WW8Num2z0OJQJ2o2 WW8Num4z0OJQJF/!F Default Paragraph Font1J/1J Absatz-Standardschriftart6oA6 WW8Num1z1 OJQJ^J2oQ2 WW8Num1z2OJQJ6oa6 WW8Num2z1 OJQJ^J2oq2 WW8Num2z2OJQJ2o2 WW8Num5z0OJQJ6o6 WW8Num5z1 OJQJ^J2o2 WW8Num5z2OJQJJ/J WW-Default Paragraph Font6U`6  Hyperlink >*B*phB'`B Comment ReferenceCJaJ:": Comment Text CharFoF Comment Subject Char5\NON Heading x$CJOJPJQJ^JaJ6B@6  Body Text !x(/@"( List"^JH"@2H Caption #xx $6CJ]^JaJ.OB. Index$ $^JTCRT Body Text Indent%]^`H@bH Balloon Text&CJOJQJ^JaJ<@r< Comment Text'CJaJ@j@qr@ Comment Subject(5\Z@Z m\ List Paragraph)*$^m$CJOJQJaJtH ZOZ %0 listparagraph*dd*$[$\$B*PJphtH 44 ,q,0Header + H$:o: +q,0 Header Char CJaJtH4 @4 .q,0Footer - H$:o: -q,0 Footer Char CJaJtHbob NDefault /7$8$H$-B*CJOJQJ^J_HaJmH phsH tH O 9l Table Grid17:V000CJOJ PJ QJ ^JaJjj 9l Table Grid7:V101PK![Content_Types].xmlN0EH-J@%ǎǢ|ș$زULTB l,3;rØJB+$G]7O٭V$ !)O^rC$y@/yH*񄴽)޵߻UDb`}"qۋJחX^)I`nEp)liV[]1M<OP6r=zgbIguSebORD۫qu gZo~ٺlAplxpT0+[}`jzAV2Fi@qv֬5\|ʜ̭NleXdsjcs7f W+Ն7`g ȘJj|h(KD- dXiJ؇(x$( :;˹! I_TS 1?E??ZBΪmU/?~xY'y5g&΋/ɋ>GMGeD3Vq%'#q$8K)fw9:ĵ x}rxwr:\TZaG*y8IjbRc|XŻǿI u3KGnD1NIBs RuK>V.EL+M2#'fi ~V vl{u8zH *:(W☕ ~JTe\O*tHGHY}KNP*ݾ˦TѼ9/#A7qZ$*c?qUnwN%Oi4 =3N)cbJ uV4(Tn 7_?m-ٛ{UBwznʜ"Z xJZp; {/<P;,)''KQk5qpN8KGbe Sd̛\17 pa>SR! 3K4'+rzQ TTIIvt]Kc⫲K#v5+|D~O@%\w_nN[L9KqgVhn R!y+Un;*&/HrT >>\ t=.Tġ S; Z~!P9giCڧ!# B,;X=ۻ,I2UWV9$lk=Aj;{AP79|s*Y;̠[MCۿhf]o{oY=1kyVV5E8Vk+֜\80X4D)!!?*|fv u"xA@T_q64)kڬuV7 t '%;i9s9x,ڎ-45xd8?ǘd/Y|t &LILJ`& -Gt/PK! ѐ'theme/theme/_rels/themeManager.xml.relsM 0wooӺ&݈Э5 6?$Q ,.aic21h:qm@RN;d`o7gK(M&$R(.1r'JЊT8V"AȻHu}|$b{P8g/]QAsم(#L[PK-![Content_Types].xmlPK-!֧6 0_rels/.relsPK-!kytheme/theme/themeManager.xmlPK-!0C)theme/theme/theme1.xmlPK-! ѐ' theme/theme/_rels/themeManager.xml.relsPK] A+n 1114 S~'*6=GI%'()+,./135}s&'.7BHI&*-0246v???@@@AXX+-4!8@0(  B S  ?Text3Text4Text6Text8xA@A@AM [  ! !)!=8K8@@@@@@@@@@@A AAAA"""X$]$00@@@@@@@@@AA3333 E ] % ; +55@@@@@@@@@@@@@@A AAAAA E ] % ; +55@@@@@@@@@@@@@AA!|x<#}@@l~NrlH1deN֜vj\0rdr.(Z5Ou HNc XS-0>VI28M?"Բ`OnAj.@"G 5P j5H~D2gMLnpQ(VGUJVJMa^bJZ[m2Μpt<|w`Z *|z^`.^`.88^8`.^`. ^`OJQJo( ^`OJQJo( 88^8`OJQJo( ^`OJQJo(hh^h`. hh^h`OJQJo(^`OJQJ^`OJQJ^`5.^`OJQJ^`^`^`^`^`^`^`^`^` 8^8`>*o(wh) ^`hH.  L^ `LhH.  ^ `hH. x^x`hH. HL^H`LhH. ^`hH. ^`hH. L^`LhH.h^`OJQJo(hH ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH. ^`hH. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.^`.^`OJ PJQJ ^Jo(- ^`OJQJo(o p^p`OJQJo( @ ^@ `OJQJo( ^`OJQJo(o ^`OJQJo( ^`OJQJo( ^`OJQJo(o P^P`OJQJo( 8^8`>*o(wh) ^`hH.  L^ `LhH.  ^ `hH. x^x`hH. HL^H`LhH. ^`hH. ^`hH. L^`LhH.h^`OJQJo(hHhb^b`OJQJ^Jo(hHoh2 ^2 `OJQJo(hHh ^ `OJQJo(hHh^`OJQJ^Jo(hHoh^`OJQJo(hHhr^r`OJQJo(hHhB^B`OJQJ^Jo(hHoh^`OJQJo(hH^`5o(. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.h^`OJQJo(hHhb^b`OJQJ^Jo(hHoh2 ^2 `OJQJo(hHh ^ `OJQJo(hHh^`OJQJ^Jo(hHoh^`OJQJo(hHhr^r`OJQJo(hHhB^B`OJQJ^Jo(hHoh^`OJQJo(hH^`5o(.0^`05OJPJQJ^Jo(- pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH. h^h`o(hH. P^`Po(hH.. ^`o(hH... x^`xo(hH.... ^`o(hH .....  X^ `Xo(hH ......  ^ `o(hH.......  8^`8o(hH........  `^``o(hH......... 8^8`o(hH. P^`Po(hH.. ^`o(hH...  x^ `xo(hH....  ^ `o(hH .....  X^ `Xo(hH ...... x^x`o(hH.......  p8^p`8o(hH........  `^``o(hH.........h ^`hH.h ^`hH.h pL^p`LhH.h @ ^@ `hH.h ^`hH.h L^`LhH.h ^`hH.h ^`hH.h PL^P`LhH. 8^8`o(hH. P^`Po(hH.. ^`o(hH...  x^ `xo(hH....  ^ `o(hH .....  X^ `Xo(hH ...... x^x`o(hH.......  p8^p`8o(hH........  `^``o(hH.........p^p`5o(. @ ^@ `hH. L^`LhH. ^`hH. ^`hH. L^`LhH. P^P`hH.  ^ `hH. L^`LhH.80^8`0o(() ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.h^`OJQJo(hHhp^p`OJQJ^Jo(hHoh@ ^@ `OJQJo(hHh^`OJQJo(hHh^`OJQJ^Jo(hHoh^`OJQJo(hHh^`OJQJo(hHhP^P`OJQJ^Jo(hHoh ^ `OJQJo(hH^`o(. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH." *|c wpt j5HVV VGUnpQZ[mMa-b8M?gM"G~}|>VI2`OnAu C  h^h`o(hH.( ! P^`Po(hH.. " ^`o(hH... # x^`xo(hH.... $ ^`o(hH .....@ %  X^ `Xo(hH ...... &  ^ `o(hH....... '  8^`8o(hH........ (  `^``o(hH.........!WW8Num1WW8Num2WW8Num3WW8Num4![¢                                  Mn                                   c~                        0|                          c&F6@^w>H-<k_ N= 5 }` .|6e`)SPe10DO d#b&Q ''.+9-%080 1D1F3U&4L6.<}@mCyChRD G:G2]HWIJ>JiOJLN,Uq8VVVdVxV WDYYm\D ^+y_!`kMdVQdjC.k"Fk9li/oqYr;tIu(Wuoy;yZ&{IJ~Z\7B~fzG?ZP &d`s-w8 J8{2zy "{,6: BPUl< kBU;"LGmVrBJev;~]Gd)H>-e]Tkq,f?TUI`D lL))UNTA :GbF_ l~78cRgp+5<XuB~Ru@@@2222AX@Unknown G*Ax Times New Roman5Symbol3. *Cx Arial?= *Cx Courier New;WingdingsS&Liberation SansArial?DejaVu Sans5. .[`)Tahoma7.@ Calibri7@CambriaA$BCambria MathBhg"gg :7!u :7!u!24@@ 3QXR $P12! xx DateSteve Golledge Amy Grainger!                           Oh+'0|   , 8 D P\dltDateSteve GolledgeNormalAmy Grainger3Microsoft Office Word@@9@':9@d<9 :7՜.+,D՜.+,8 hp   Microsoftu!@ Date Title 8@ _PID_HLINKSA Admailto:jdr@uoregon.edu@fmailto:lev@uoregon.edu  !"#$%&'()*+,-./012345679:;<=>?ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqstuvwxy{|}~Root Entry F]/<9Data 81Table@cWordDocument 7nSummaryInformation(rDocumentSummaryInformation8zMsoDataStore &<9.<9ENDYBH==2 &<9p.<9Item  PropertiesUCompObj r   F Microsoft Word 97-2003 Document MSWordDocWord.Document.89q