SCIENTIFIC ABSTRACT KRISTOFEL, N.N. - KRISTOL, F.M.

MMW ~51-DPW ------ --- KRISTOFELO, N. N. Cand fts-11ath Soi -- (diss) "Quantum-4noohanioal oaloulation of adiabatio potentials and oertain properties of the oenters of luminesoonce in alkali-ohaloid orystal phosphori.0 Tartu, 1959* 11 pp (Tartu State Univ), 225 oopies (KL, 46-59, 136) -6-  24(4), 24(2) AUTHOR: Kris tofal NX SO-1/51-7-1-11/27 ------------ Calmilation of a Lum1noscen-7o Contra in ACl-Tl. TITLE: A Quantum-Machanical (Kv&ntovomekhanichesk1,y ruschot t3entra lyuminolitAontrii 1; KC1-Tl" PISRIODICAL: Oplvika I sp6ktroskopiy&, 1969, Vol 7, Mr 1. pp 7B-8~ ~VSSR) AB3TRACT: The author described earlier (Rof 1) a quantum-co,~hanical method of calculation of the adiabatic potantials of lum1nascnnz.-e contras in alkali-halide crystal phosphors. Using this method -the author discussed the ISO- and 13PI states of a luminescence contre in KG1-T1 (the results for the ISO- state -xsre given in an earlier papoi, Rof 2). The present paper reports results for the ox4;ited state and the spectral properties of such a contre. Bach contre Is assumed to consist of activator ions which replace one or more cations at a lattice site. ,The activator electrons are assumed to interact -with local vibrations, The number of Iona in one cantre is equal to the number of Ions taking part in interactions with local vibrations. It is also assumed that the activator ions interact only with fully s4motrical local vibration-, The adiabatic potentials of the 1%'%,- and the -'?I- states are shown aj curves 1 ano 2 ip. Fig 1. Fig 2 shows the empirical (dashed curve) and- ca rd 1/2 theoretical (continuouR crarve) spaAra or a luminasrance contra in Xkll-'41,  qu.antum-Machanical Calculation of a Luminescenc6 Contra in KC1-Tl S OV/ 51 -7 -1 -11/2 7 The empirical spectrum wait talcon frcm Ch.13. Lu3hchilc at al (Ref qU). The theoretical spectrum, deduced rrcm the lumineic-6nce contra model de3~-.-ibrrl above, agreed quite well with the empirical on4. Mar spectral pro-porti,- of a luminescence contra (4,Ach as the wnission and absorption half-vadthl ,.,alculated by the author are g%yen, toeAti%ar %Ith corresponding experimental val.-josp (takea from Raf 7). In Table 3. For all these properties the agreata6nt betwonn Vitonry and experiment is food an~ consequently the author concludes that the res~,alts obtained ty him conf.Lrm the assumed model of a lumineac-once contre in Z01-TI. The present paponr will be published in an extends', form in ~'Tr-.:dy IF,,. P-11 Sotonskvy SSR.". Acknowledgment is made to U4, Potrashan' who direntai and helped In trar. woric and to K.K. Robans and Ch.B. Lurhchik for their advic-e. Thero a.-(. 2 figures, 3 tables and 14 referan,~ei, 8 of v4iich are Soviet and 6 Englieh. SUENaTTEDs January 10, 1959 Card 2/2  233~7s, 8 'CCO/G'C,6/,-23/a3 .2 t/ Ible -~e AC.~-) 1 /A 10 11 ,, 1~4 0) 77he b~-.ni larergi ir. TlCl cry2tal~! FEKCDICAL~, Referativnyy zhurnal. Pinks, no. 6, 19-_`~, 1,77-178, ht,,21.ra7~, 6V32,1 ("Tr . in- ta f iz. I astron. AN Es+1331V , 1c)i5,0, no. 1, 262 - 263) ISYT! The v,+hsr- points olst that thi, enprgy of "r=_rcint" in- , f-;r ~h-~ !,~,n pair 11 C'- I ~L:~Phcr, ~_an tf! f,.r q%an-um-meihanical 2s1cA&t!cns of the bond ~nqi,Ay of 1.h~- TICI zrystal followng foryrula was otl-alnei f:,r ~hp, bcnd energy V tz I ~. 1,in V "I 1.763,/a+8 [o.0147-0.0)09 W - 0.02-20 ~a_r, . 9!4, 0 (23r-/ a.- -4 1371 ja j, where NA is Avogadrc number ( a is separa-,icn between _,~,na If T1 and Cl-. 'Me flrar T-.erm repreeent-s Made-lung a energi, 'he zec=d term is the sum of an "alectr~~,'_at!caj ccrre_,ti,:n" for --f lons, th,~ ex~hdnge 5nergy and S-energy which takes Into account non-.)rth~,grnality at' the t--n wave 'Th-,~ IAtt ~,rmr-,rrsi~,cnde to mulll,,Dle Inlioera,:-Icn~*, Am q result, 1, Wa3 OL-11ned.. ao - '40 , V - - 171.5 kcal/mol, whi,,h covr,~poni t:. experimental val,,Ie_~ ~iqua: t-- a - (T - 200C) and V a -170.9 rAbz~,,Ia7~-~.r'n n~_te-, 0,)mpj~7te ~mnslatfonl N. Mak3lmva Card 1/1  S10 51/60/009/014%3/03 4 E201/E191 AUTHORS: Petrashen', M.I., Abarenkov2 I.V,,, and Kristofel',N.N. TITLE: Approximate Wave-function3 of Free Ioiis-and of_io-iii-_' in a Crystal PERIODICAL: Optika JL spektroskopiyaj 1960, Vol 91 No 41 PP 527-~29 TEXT: In quantum-mechanicalI~alculations of properties of alkali-halide crystals, the one--e-lectron functions of' free ions are used as the functions of ions in a crystal. This approach is not very satisfactory. The present note describes a simple method of calculating approximate one-electron functions of a "central ion" (CI) in an 1on1c crystal. The one-electron functions of a free CI are assumed to be known. They are then modified by allowing for the effect of other ions in the lattice, regarded as geometrical points. The new functions are known as crystalline one-electron functions and they can be used in the zeroth approximation of the perturbation theory. The next step would be an allowance for the departure from the assumed point gecmetry of the lattico. The calculation method described here was tested by calculating diamagnetic susceptibility of a crystal. Card 1/2  83923 s/o W6o/oOq/oO4/0-23,/034 9201/H191 Approximate Wave-functions of Free Ions and of Ions in a Cry5tal It was found that the results obtained with crystalline functions agreed better with experiment than the results deduz.-ed using free-lon functions. The paper is entirely theoretical. There are 6 referencess 1+.Soviet, 1 English and I German. SUBMITTED: April 16, 1960 Card 2/2  - - -IRIST073MI-31N. - Interaction between the activator and in completely symmetrical local vibratioun, Opt. i spektre 9 no.51615-62o N l6o. (Iminescence) . (NDA 13 111)  - - - - -- e- - -- - --- -- -- - -- -- - - -- -- - - - - - I- - - - -- - - - - - - --- --- - -- - - -- - --- -- PPMSEWI, K,I,; ABARZMDT, I,V,;imz�Torn, , NON* Approximate ways functions of free ions and ions in crYstals. Test I,GU 15 no,16:7-21 160o (MIRL 1318i (IOAS) (Wave mechanics)  Stability of structures of the cesium and sodium chloride type in TIM crystals. Fiz. tver. tela 3 no.6:1876-1878 Je '61. (MM 14:7) 1. Institut fiziki i astronom1i AN Estonskoy SSR, Tartu. (Thallium chloride crystals) (Cesium chloride crystals) (Salt crystals)  ARMKOV IN.; ?41<~FELIV N.N.j PETRASHENt M.I. Calculation of the optical properties of small-radius electron centers in ionic crystalse Opt. i opektr. 10 no-414,87-492 Ap, 161. (Ionic vrystals-Spectra) (MIRA 140)  3/058/62/ooo/co8/02/134 Ao6l/A101 ALMIOR: .-Kristofell, N. N TITILE: A contribution to the theory of excess valency impurities in ionic crystals PMIODICAL: Referativnyy zhurnal, Fi4ika, no. 8, 1962s 42, abstract 8V293 ("Tr. In-ta fiz. i astron. A14 EstSSR", 1961, no. 15, 3 - 20; sum- marl in English) TEXT: The quantum-mechanical method of calculating the properties of impurity centers in ionic crystals is generalized to the case of Imp4rities of anomalous valency. Energy corrections of the ion-multipole type are absent when use is made of ionic wave functions, and the deforming effect of the poiAt lat- tice field is taken into account. The said corrections occur in the case of im- purities of anomalous valency. Calcdlations are made for the formation ener- .gies, the shifts of equilibrium positions, and the frequencies of local vibra- tions for the cationic and anionic vacancies in KC1. A quanioptical local vi- bration develops here. The ground state of a center due to a Ge2+ ion building Card 1/2  Alcontribution to the theory of ... S/058/W~/008/042/134 Ao6i/Aloi in the KU cationic lattice point is calculated, and some characteristic fea- ture3 of such centers are discussed. [Abstracter's notes Complete translation) Card Z/2  S/613/61/000/017/001/011 D051/DI13 AUTHOR: Krintoffelp N.N. .TITLE-. The effect of the type of host crystal structure on the spectral characteristics of phosphors .SOURCE: Akadomiya nauk Eatonskoy SSR. Institut fiziki i astronomii. Trudy, no. 17, 1961. Isaledovaniya po lyuminesti3entaii) 3-20 TEXT: Since the effect of the type of host crystal structure on the spec ;tral characteristics of phospaors with built-in activators is insufficientlyi .studied, the phosphor KCl-Tl in the struc*tural form of a CaGl crystal was ~investigated. The quantum-meahanical method of calculating the adiabatic potentials of centers of luminescence, which had previously been used for a ,phosphor with an NaCl host crystal, was used in this case. The result of a :caloulation for KCl-T1 based on single-oooillation approximation,did not :convey the changes observed in the spectra of this phosphor; the maxima of 'the spectral bands shift in the opposite direction. The Jahn-Toller effect 'Card 1/2  S/613/61/000/017/001/011 ;The effect of the type D051ID113 ~was examined for the center of lumineooence in a host crystal of the CSC, ~type. The adiabatic potential minima co=respond to the nuclear configu- :rations.of symmetry D3h and D the D3h minima being equilibrium potential 2h' !The difference in the corresponding spectral effects for centers of both ,~struoturee allows them to be identified. Theis are 7 figurea.and 3 tableeal Card 2/2  ?/ ,7#-,,3s-40 ( / AUTHORs Kristofell, N. N. 22188 8/048/61./025/004/057/048 B117/B212 TITLEs Interaction between an activator and not completely symmetric local vibrations PERIODICAL: Izvestiya Akademii nauk SSBR. Seriya fizicheskaya, v. 25, no. 4, 1961t 533-535 TEXTt The pre" ent paper was read at the 9th Conference on Luminescence (crystal phosphors). The author has used the theory of perturbation to calculate the interaction of an activator with not completIly symmetric vibrations. Concrete calculations have been made for the P1 term of the center in KCl-Tl. Only shifts of neighboring activators have been taken into account. The frequencies of local vibrations have been calculated with a method described earlier (Ref. 1s Tr. In-ta fiz. i astron. EstSSR, no. 10, 3 (1959)). In contradiction to "longitudinal" vibrations the frequencies of "transverse" vibrations will be increased during excit ation of Tl It has been shown-that symmetric vibrations (normal coordinates Card 1/4  22188 S/04 61/025/004/037/048 Interaction between aness B117YB212 Yj and Y2) will lead to a minimum of the adiabatic potential and the symmetry of the center will decrease to D 4h' There are three similar con- figurations for balanced conditions which differ in the direction of the symmetrical axis of 4th orders the Ildambbell" of the 6p-function of +the Tl+ is orientated along it. Cl-ions move away on this axis fron, T1 by 0.110 A, and they approach it normallj by 0-055 A- In steady-sLate con- figurations there is a non-abnormal and a doubly abnormal level with relative energies of 0.065 reap. 0.13 ev. This splitting up iR lesser than that of a multiplet. It the point y, a Y2 - 01 it corresponds to the steady-state configuration of the ground state, all three "leaves" have the same, i.e., zero value. Centers with big radius interacting with crystal vibrations do not seem to have the Jahn-Teller 2ffect. The calculated results make it possible to explain the low temperature polarization of the 3P,____~130 radiation in KC1-Tl as found in Ref. 4 (C. Kliok, W. Compton, J. Phys. Chem. Solids, 170 (1958)) and assign to it a vibrational character. Due to the Jahn-Teller effect the emission Card 2/4  _7 7i 0 e S/040/61/025/0 4~63 00 'Interaction between an ... B117/B212 bands might be non-elementary under certain conditions and eve 'n show a splitting in the absorption spectrums By using the adiabatic potentials i of the single-oscillator approximation (in ev and A)t 2 3 )2 (Ref. I( so) 18.0(q - 0-093) 9 1( PI) - 4.34 + 11.4(q + 0.065 1) and the results of this paper the spectral characteristics of Is 4 )3 P bands 0 1 In XCl-Tl have been calculated by taking into account the not completely .sy=etrio vibrations (Tables in ev) . These contribute -18% to Stoked! losses (E~ - EI) and 6.-10% to the half -width. The activator will react m m much stronger with not completely symmetric vibrations in alkali halide phosphors. This explains the relatirely good applicability of the single-, oscillator approximation. If a uniform compression is investigated, the not completely symmetric vibrations are not essential in a quasi-molecular model if this effect does not bring about a change of steady-state values of corresponding vibration coordinates. S. A. Moskalenko has stated the following in a discussion about this papers A localized center will not change the symmetry of the lattice and the interaction will take place with vibrations having the wave veztor 0. Therefore, a decrease of 'Card 3/4  S/048/61/025/004/037/048 Interaction between an*## B117/B212 the symmetry must not necessarily take place in this problem and the splitting of the center level cannot be understood. It could be under- stood if it would be due to the interaction with lattice vibrations having the wave vector 7 ~ 0. K. K. Rebane has said to the same paper: The symmetry considerations seem to bo correct. But the applicability of the quasi-moleoular model is not proven. There are I table and 6 refer- encess 2 Soviet-bloo and 4 non-Soviet-bloo. ASSOCIATIONs Inatitut fiziki i astronomii Akademii nauk EstSSR (Institute of Physics and Astronomy of the Academy of Sciences Estonskaya SSR) Legend to the tables 1) Single-osoillator approxima- tion; 2) having taken into account the not completely symmetrical vibrational 3) experiment. A4, fn Z, I jr-,-Z., OAllooenwax-ropisoe UP25ANNORMS 4,64 3,90 0,74 C Yq"OM Menonsocuu- M" )ILUUI MoReGa. N I 4,66 3.76 090 0.25 50 1 0. OXCU02nmew 5.02 4,06 0:96 0,23 0,51 4) 2) 3) Card 4/4  TOLPYGO, K.B.;4KRI STOFFELO N., red. (Theory of vibratiou of Motal lattia"-with deforued atoms] Toorii kolsbanil kristalliobeskikh reshetok a do- formiruemymi atonamil lektaiit proohitannye v le~Lei swcole po toorii tvardogo tola, Tartu-Tyravere, iiun' p51, Urtuskii goo, unov, V61,2. 1962. 17 p. OILA 1614) (Crystal lattioes--Vibration) (Dialooation in orystals)  B/181/62/004/001/006/052 B102/BI38 AUTHORt Kristofellp No No TITLEi 'Theory of vibrations of a lattice with defects PERIODICALs Fizika tverdogo telaj v. 4, no. 1, 1962, 52 - 58 TEXTs A monatomic chain consisting of N+1 atoms (N is even) is considered, containing an impurity atom in its central site (n-0) and anchored at ita ends. Neighboring chain links are assumed to interact quasielastically. The constant of the binding forces of the chain atoms is denoted by ki that between impurity and chain atoms by r. The mass difference between impurity and chain atoms is neglected*. xn is the displacement of atoms in an ideal chaint being the distance to their equilibrium position x(o) n is their displacement caused by the introduction of an impurity. The chain is assumed to maintain its length when the impurity is introducedo their end atoms have the positions n W2. Then Card 1/4  B/iOl/62/004/001/008/052 Theory of vibrations of go. B102/B138 X(O) D -1 N [I -I- P 1)] n) (n > 0), xr=O, (4) D x(o) p (N -Inj) (n ~ P1 tr,nsition in the luminescence centro of' tho crystal phosphor KCI-TI. The calculation is based on the model of the luminescence centre of the associated theory which was given in the previous papers by the second of the prosent'authors (Tr.IFA AN ESSR, No-79 85, 1958. Mater. VII soveshchenaiya po lyuminests., 49, Tartu, 1959; Tr. IFA'AN ESSR, NO-10; 3, 1959; No.11, 180, 1960; Opt., i spektr., 7, 78, 1959; Opt. i spektr., io, 487, 1961). In an ionic crystal electron densities of the various ions overlap and hence the wave functions for the activator do not take the form of the wave functions of the free activator simply perturbed by the crystal field. They do in fact untain an admixture of wave functions due -to the base ions. Card 1 2  On the applicability of.... S/051/62/013/002/005/614 E032/E514 This effect in very dependent on the interionic diatdnce and varies during the ion vibration process so that the electronic matrix elements depends on the nuclear coordinates R. A consideration of the numerical results of those calc7ilation:i loads to the conclusion that the Condon approximation is very adequate for the 15 -) 3P transition in KC1-Tl. There aro'3 tablez~. 0 1 SUBMITTED: June 1, 1961 Card 2/2  s/613/62/000/018/013/013 E039/E12O AUT11ORj Kristofelf, N.N. TITLE: on the possibility of discovering local vibrations in the Raman spectra of crystals SOURCE3 Akademiya nauk Estonskoy SSR. Institut fiziki i astronomii. Trudy-no.18. 1962. Issledovaniya po lyuminestsentsii. 149-152 TEXT: only local vibrations of U-centres have to date been observed in the infrared spectra of some alkali halide crystals, The Raman spectra of crystal phosphors are of special interest as. they must display local vibrations corresponding to interactions with electron defects in optical clectron,vibration transitions. The intensity of Raman spectra for local vibrations in much less intense than that of the first order spectra of such crystals.-- Hence crystals in which the first order in absent (the alkali halides) are investigoted with the aim of discovering the first order peaks from local vibrations on the background of the continuous.second order spectra. Frequencies connected with Card 1/2  On the possibility of discovering 5/613162/000/018/013/013 E035/E120 anion and cation vacancies for KC1, NaCl and N&F are 3.91, 2.53 and 3.83 x 1013 sec-I for anions, and 3.20, 3.22 and 3.83 x x IoI3 sec-I for cati-ons, reepcretively-. . The frequency of local .vibrations about.F centres is larger thap about anion vacancies For example, a frequency of 4.08 x 1013 a'ec-I in obtained for 0 centres in NaCl. For a more detailed elucidation of the question it is necessary to study the effect of changing the number of defects (vacancies) on separate parts of the Raman spectra. SUBMITTED: March 2, 1962 Card 2/2  KFISTOFEL N.N*j ZAVTj G.S. International Congress on Lattice Dynamics, Copenhagen, Denmark 5-9 Aug 163 Institut do Physique at d'Astronomie de I'Academie des Sciencps do la R.S.S. d'Estonie, Tartu Observatoirep Tartu, U.S.S.R. Title of Report- Einige Fragen der Theorie von Schwingungen in Fremdionenent-haltenden-ionankristallen. 'Iva  L-11155-63 EWr(l)/BDS--AFFr(;/A,9D ACCOSION MR: AP3000600 8/0181/63/005/005/149/V-85 AUMOH: Kriotofell. X. M; ZiLyt, G. S. TIM: The Condon approximation and t1vi optical properties of czafa- Vf SOURCE, Mika tverdogo tela, V- 5, no. 5, 1963, 1n9-1285 TOPIC TAM: Impurity ceatera,, Jhbzt-Teller effect, Condon approximation, absorption bands ABSTRACT: The authors discuss spectral phenowas resulting from the breakdown of tb-e Condon approximation: the dependence of the Integral spectrum on tenpemture and the appearance of spectral bands "forbidden* in a rigid lattice. They investi- gate the symetry of vibrations that cause breakdown of the Gondon approximation and "-pe_zv.it" nonMiabatic transitions, using as an example the traasitioa sup 1 8 sub 0 to 3up 3 P sub I in KCI-71. They show t,:Lat under certa-ia conditions of splitting the adiabatic potential the consequences of the Jahn-Teller effect, aA a resvLt of breakdwn of tha Condon approximation, mty lead to splItting at' the absorption bead This foUcva from Equation (1). 'Mie authors conclude ttat breakdcr4u of the Condon approximation, the Jahn-Teller ef-ect, &nd the nonadi&batic behavior should b,e consitlered as related phencmena in tho theory of cptica.1 proper-ties of iWurity centers. With this In mind they think in possible to predict aev effects, the Card 1/3  L M55-63 Acassios xR: Anooo6oo dxperimental d1scovery of which my be pcosibly brought about by microwave techniquea. Orig. art. has: 12 formilas. ASSOCIATION: Institut fiziki i astronondi AN EstSSR, Tartu (lastitute of Pbysics and Astronosq AN RetSaR) sumu=: l6Nov62 DM ACQ: n.%n63 IBM: 01 SUB COEE: PH 10 IMF 807: 007 a=m oo6 Card 2/3 ------------ .......  VUSTOFFEL, N.N.; REBARp K.JK. - --------- Some-problems of the theory of luminescent centers in crystalline phoaphors. Ohekhoal. fis shurnal 13 no.3t2lO 163. 1. Institute'of Physics and Astronomy of the Estonian Academy of Sc#ence, U.S.,S.R.  MUSTOMI N.H.; REUN&~ A.X. - - Some problems of the theory of luminesoance centers in a~rptalline phosphors. Co. cas fyo 13 no.3t241-256 163. lo Institut fNkI i antronomiij Akademiya nauk ESSRO, Tax-tua 0 -  KRISTOFELIP N.Y.; REBARE; K.K.; SILID, 0.1.; KHIZHMYAKOV, V.V. Causes of the difference between the hal-f-width of the abuorp- tion and amiosion bands of cryatal phosphors, Opt. I spektr. 15 nu.4:569-572 0 163o (MIRA 161l1)  Hartree-Fock's equatione for noi,;kitul cri.itals. no.100-15 163. (Crystallography) Vest. bw 18 (MM 16:8)  KRISTOPTLI, N,N# Calculating the lattice distortion around an impurity in an ionic crystal, Fiz. tvar. tela 3 no.8t2367-2369 Ag 163. (MM 16:9) 1. Institut fiziki i astronomil AN Estonskoy SSR, Tartu. (Ionlo crystals--Defects)  ACCIIIIISSION NO: AT3013077 B/2613/62/000/021/0003/0011 AUTHOR: Kristofel't N. N.~ TITLE: More precise formulation of an excited state luminescence center theory SOURCE: AN EetSSR. Institut fiziki i astronomii. Trudy*, no. 21t 1962, 3-11 TOPIC TAGS% luminescence center, activator, adiabatic Potontial, degeneration, equilibrium configuration, anisotropy, admixture electron cloud ABSTRACT: Formulae have been presented for the parameters determining the adiabatic potential of luminescence centers in Flu-state with cubical symmetry (NaCl lattice type), taking into account the asymmetry of the interaction between the activator and its proximity. The expression for the luminescence center adiabatic potential is reproduced from the author's previous work (Trudy* IFA AN ESSR, No. 10, 3, 1959; No. 11, 180, 1960). The possibility for minimizing the adiabatic potential on various linear combinations of p-funotion degenerate states in investigated. A solution is presented first for a single oscillator model and subsequently for non- fully symmetria oscillations contributing to the shift in ion equilibrium configu- ration. An equilibrium configuration for the ions in the F,U-atate is derived, Card 112  ACCESSION NO: AT3013077 iindicating the Jan-Teller effect to be completely due to the anisotropy of the :admixture electron clouds. Orig. art. has; 18 formulas. ASSOCIATION: AN EetSSR. Institut fiziki i astronomii (AN EstSSH. Institute of ;Physics and Astronomy) -s.uBmiTTED, oimarQ DATE ACQt 11Sep63 ENCL: 00 ,SUB CODE: PH NO REP SM 006 arm: 000 Card 2/2  ACCESSION Not AT3013076 T',1T12: Selection rules for nonadiabatio transitions S/2613/62/000/021/0012/OOi9 STME1 AN Bet5sa. Institut MAI, i astronmiip Trudy,*t no. 21, 1962t 12-19 TOPIC TAGS: nonadiabatio transition, point group# electronic state, optical tr4nsition WrRACT: The problem of nuclear vibration symmetry permitting nonadiabatio transi- tiona from I.to A electronic states has been considered. The investiCation waG conducted in conformity with admixture centers with small radii in Ionic cryntalst and utilized the rule of electron-vibration transition selection of forbidden riCid lattices. The electron wave function is expandedin. power series, in terms of normal coordinates of vibrating nuclei. These are then transformed through a symmetric operation to an irreducible point group oymmetr7 representation of admixture center- quagimolecules. Thus it is shown that in the approximate Condont nonadiab%tic transitions between electronic states et andp, whose symmetry coincides with the perturbation symmetryq can be resolved to a corresponding optical transition Card 1/2 1  ACCESSION NO: AT3013078 ~rjxr. X,r. 0) Ebcamples are cited for the resolution of such transitions in alkali-halide normal luminescence centers. '"Ihe author expresses his Oatitude to K. K. Rebane for his influence on this work." Origo art. hast,10, fox=las. ASSOCIATION: AN EstSSR. Institut fisiki i astronomii (AN 3stSSR. Institute of Physics and AstronouV) SUMa=: 29Apr62 DATE ACQ:, 113op63 ENCL: 00 SUB CODEt PH NO REP SOVt 009 OMM 1 006 ,C(,,d 2/2  :ACCESSION NR: AT4020791 S/2613/63/090/023/0003/0017 ,AUTHOR: Zavtj Go Sol KrIstofell, No No .TITLE: Localized vibrations In Ionic crystals with an Isotopic defect sbURCE: AN EstSSR. Institut fIzIkI I as-tronomil. Tru~dy*, no. 23, 1963. Issledovanlys po, lyuminestsentsil (Research In lumin4sconce), 3-17 ;TOPIC TAGS: crystal, Ionic crystal, crystal vibratlon, cristal defectp crystal .structure Isotopic defects alkali halide crystal lattice -J ABSTRACT: The authors develop a theory for the localized modes of vibration which arise In NaCl type Ionic crystals In the case of an Isotopic substitution of one of the lbtfice Ions. Us4f ofthe Green 'fudctIdn In harmonic approximation was proposed by Lifshits (I. M. Lifshits, ZHErF, 17, 1017; 1076, 1947; ZHETF, 16, 243, 1948). Before proceeding to an analysis of thevibrations In defective cry- stals, the authors reduce somewhav the equations of-motion of an Ideal lattice. ~lt Is shown that,[Afor the development of localized vibrations In lattices with ;similar ion masses. the Impurity must be, on the average, twice as light as the ;substituted Ioni. There Is a detal,led study of the localized mode frequency as a ;function of the Impurity mass for NaF, Computations are made for the loc liz d M)rajl n mode.frequencies of U-centers of H' and r types for 10 Ionic I:ttI'C9Qsj  1ACCESSION NR: AT,4020791 And It Is shown,tbat the results of these calculations are In agreement with ,available experimental data;wIth the exception of KI the difference nowhere ex- ceeds 10%. The,atithors also note that a triplet, and not a single frequency, Is observed In the spectra. The authors attribute this splitting to a change In the Interaction constants around 0e defect. "The authors wish to express their gratl-~ itude to Mo I* Korinfelld and 0. N. Hirlin for their discussion of the problems Iralsed in the article." OrIg. jart. has:, 2 tables,-l figure and 28 formulas. 'ASSOCIATION: IKSiiITU[T FIZIKIIASTRONOM11 AN ESTSSR "(Institute of Physics and Astronomy) ~SUBMITTED; O4Jan63 DATE ACQ: O7Apr64 ENCLs 00 SUB CODE: -PH NO REF SOV: 002 OTHERs 017 2/2 .Card 1- 117: 1. FI- PW  ACCESSION KRt AP4043031 S/0023A4/000/002/0087/0109 !AUTHORS2 Rebane, K. K.Y Trifonovo Yes De; .Khizhnyakov, V. V. :TITLE: Dynamics of a lattice with impurities and quasi-line elec- itron-vibration spectra of crystals SOURCEs AN EstSSR. Izv. Seriya fiziko-matematicheakikh i tekhnich- ,eskikh nauk,, no. 2, 1964# 87-109 TOPIC TAGS.- crystal lattice vibration, impurity spectrum, electron spectrum,~'line spectrum& crystal lattice theory, Mossbauer effect, i Raman scattering ABSTRAM This survey article brings up to date an earlier report I(N. N. Kristofell and K. K. Rebane, Pizika shchelochno-galoidny*kh- I ikristallov (Physics of Alkali-Halide Crystals]Riga, 1962, pe 32)-4n I alight of three major developments that have occurred during the" 1/3  jACCESSION NRs AP4043031 elapsed time. The first is the progress in the theory of crystal- lattice dynamics, particularly the character of distortion of the crystal lattice near impurities, which has made it possible to pre- dict various types of oscillations in electron-vibration and related processes. The second is the application of the Mossbauer effect to the study of local lattice dynamics. The third is the better under- standing.of the closed.connection between the interaction with electron-transition vibrations and the analogous problem of gamma transitions in an atomic nucleus contained in the crystal (optical analog of the Mossbauer line and the Shpollskiy effect). In addi- tion, the number of experimental researches on the direct study of idynamics of the lattice near crystal defects, including locql os- cillations, has greatly increased during the past few years., It is pointed out in the conclusions that principal interest attaches to further development of the theory of the purely electronic line and performance of exact experiments aimed at ascertaining how narrow they can be and how close the-analogy between the Mossbauer line 2/3  ACCESSION NRs AP4043031 land the purely electronic line actually is. Further development of the theory of vibrations of impurity molecules in crystals and fur- ther research with the aid of the Mossbauer effect are urged. The section headings are: 1. Introduction. 2. Local and pseudolocal oscillations. 3. Electron-vibration transitions and local lattice dynamics. 4. Raman scattering of light. 5. Infrared absorption spectra. 6. Mossbauer effect and a few other phenomena. 7. Con- cluding remarks. Orig. art. has: 2 figures, 2 formulas, and 1 table. ASSOCIATIONs None SUBMITTEDs 12Mar64 ENCLs 00 SUB CODE: OP# SS NR REP SM 066 OTHERt 068 C-ard 3/3  ACCESSION NRs AP40284" S/0181/64/006/W4A246/120 AUTHORSt XrisUt4X1,V.,N. V.1 Tyurkson,, Z. Be TITLEt Computation of the properties of the pair vacancy in alkali halide Crystal SouRcEs Fisika tvardogo telat ve 6# no. 4t 19640 IU6-1248 -TOPIC TAGSs alkali halide crystal, crystal defect, pair vacancy, equilibrium point shift, ionic vibrational frequency, KC1 crystal, induced dipole, ion dipole interaction ABSTRACTj The properties of the pair vacancy,, a structural defect of adjacent anion and cation commonly occurring in alkali-halide crystals, are investigated, The pair vacancy and Its hearest neighbors are shown in Fig, 1, of the Enclosure* At sufficiently close neighboring ionsp the electric field due to each of the two vacancies in non-zero. Thusp an ion-dipole interaction occurs betwofn the charges of the defect and the induced dipoles* The interaction energy is given by 02 Card 113  ACCESSION NRj AP4029466 where,9 a in the polarizability of the a-th ion, and R and R' are.the distances from the centers of the vacancies to the m-th ion, Oficient accuracy In obtained by considering only the 10 merest neighbors and their remaining 34 nearest neighbors. The shift of the equilibrium position from that of the ideal crystal in shown In the figure for each of the 4 non-equivalent groups.: 1; 2, 3# 4# 5; 6# 7t Sp 9; 10, An expression for this shift in given aaaumIQ the shift is directed along the coordinate axes as indicated in the figure,, I, a,, the attraction between ions of groups 2 and 6 in ignored. An equation for the vibra- tional frequency of the ions in also givvn. The form of the energy for pair vacancy formation is indicated; and nusserical calculations are made for the KC1 crystal. The authors are gra"ful to A. 1. Stokhanov for discussions leading to the form3lation of tho computations. OrIg. art. hams 25 equations and I diagran. ASSOCIATIONs Inatitut fizi1d I astronoodi AN ESSR Tartu (Institute of Physics wW AstronoW AN ZSSR) 7 SUBM=Dt 289*v63 DATs AcQs. 27Apr64 SUB COM OP Cord 2/3 NO W 30V 1 ?06 ZVOLs 01- OTM I MO.,  A=UzoN ns AUMS41A r OCC Ole Fig, 1 t The pair vacam7 and its closest neighbors in the KC1 crystal, Card 313 INCIAM (XL  I1ACCESSION NRs AP4020926 8/0051~016/002/02W/0259 AUTHORi Kristofollo N.N01 sayt, Goo, A 'TITIZ: Concerning Interpretation of vibronic transitions In Impurities on the ba- sis of the dynamic theory of nonideal lattIces SOURCE: Optika I spektrookoplya, v.16, no.2, 1984, 256-259 TOPIC TAGSs vibronic transitions, phonon spectrum, ~attlco vibration, Impurity con-', ter, lattice defoct, nonideal lattice, imperfect crystal, quasiline spectra, edge emission, edge luminescence 1ABSTRAM The phonon spectrum of a crystal with a number of defects may differ subw stantially from the spectrum of an ideal crystal by the presence of a number of %0~ cal" frequencies. Hence in considering the vibronic transitions in Impurity centers, for example, one must take into consideration the vibrations of a nonidesl crystal., In the present paper there Is considered the distortion of the crystal lattice vi- 'brations in the vicinity of defects (impurity centers). It In shown that the dis- 'placements of the host atoms close to the defeat as a function of-frequency my hrm number of sharp *axis&. The frequencies corresponding to these saxina either do-  ACMWION NRs AA020926 Itermine the effective frequencies of the impurity center or -Anced In form of narrow quasilines (in the respective cases of centers with large --%nd small Stokes ( losses). Some experimental and theoretical data for different types of luminescence centers (mercur3~71ike, IF and rare earth centers) are discussed and analyzed from ~thc standpoint of the considerations adductd, It Is suggested that the frequencies evinced in the vibrational structure of the edge emission spectra of some non-lktti- ,vated crystals (ZnS, CdS$ ZnO) my be associated with the above mentioned maxina. "The authors are grateful to K.K.Reband for d*tailed discussion of some of the pro- bloms involved and to Ch#B,IAwhch1k for valuable suggestionsoff OrIgsartshast 2 for- Imulas and I tables ASSOCIATIONs none SUBMITrOt 14.Tun63 DATE ACO 02APrG4 MCLS 00 SUB CODSt PH NR REW BOVi 010 012  ACCESSION NR: AT4004329 8/2613/63/000/020/0122/0131 AUTHOR- Kristofell N N P !..= TITLE: Theory of elootron-oacillatory bonds forbidden in a static lattice SOURCE: AN 1-;stSSR. Institut fizild I astronomil. Trudy*, no. 20, 1963. Issledovanlya po tcoreticheskoy Mike, 122-131 ~ TOPIC TAGS: electron band, phosphor, forbidden transition, impurity center, crystal lattice, lattice dynanales, electron oscillatory transition, static lattice, Jahn Teller effect ABSTRACT: In this article, two topics are considered: first, the symmetry of vibrations caused by the breakdown of the Condon approximation and leading to electron-oscillatory transitions forbidden in the static lattice between the levels of small impurity centers; second, the connection between the Jahn-Telle* r effect and the breakdown of the Condon ap- proximation. The electron-oscillatory bands associated with the transitions forbidden in the oWle lattice are generated In activating Impurities in fluorescent cryatals. The In- tensity of these bands Increases with temperature, because the vibrations of the nuclei turn the forbidden bands Into permitted ones. As a result of these vibrations, the electron wave functions are deformed and the electron matrix element of transition becomes dependent on the coordinates of the nuclei. In other words, the Condon approximation breakadown. The card 1/3  ACCESSION NR: AT4004329 symmetry of vibrations Is -investigated to determine, what kind of symmetries can remove the prohibiti-on from a certain transition. The analysis Is carried out by means of the theory of groups. In the static crystal lattice and dipole approximation, transitions between states of the same evenness are forbidden (if the group of the symmetry of the center contains the operation of inversion). This prohibition is removed by odd vibrations. However, if the transition is forbidden by other selection rulesbesidds evenness, then only even vibrations can remove the proihibition. The motions of only those ions included in the regionof the im- purity electron cloud are essential for the deviation from the Condon approximation. To determine the symmetry of the vibrations and their'number, the impurity center is consid-, ered as a quasi -molecule. The Jahn-Teller effect consists in lowering the equivalent symmetry of the center and splintering the adiabatic potential. According to the Condon approximation, the splintering does not take place in the absorption spectrum. If the Condon approximation is disturbed by the same Incompletely symmetrical vibrations which lead to the Jahn-Teller effect, the absorption band consists of the half-bands. In the opinion, of the author, the Jahn-Teller effect, the breakdown of the Condon approximation, and the deviation from the adiabatic state should be considered as mutually connected phenomena. 'The author thanks K. K. Rebane and Ch. B. Lushchik for considering these questions. Orig. art. has: 12 formulas. C.,d 2/3  ACCESSION NR: AT4004329 ASSOCIATION: Institut flzikl I astronomLi AN EstSSR (Institute of Physics and Astronomy AN EstSSR) SUBMlTTED-. 10 Mar62 -DATE ACQ; 14Jan64 ENCL, 00 SUB CODE: 'QP NO REF sov: 006 OTHER: 001 Card-A13  .1,, - ,,Arv,,~ I , -..,.SWIM  1. Z4 t t h   --atate lia prop-rti P R an(l p Rpc- 7. la1 -1 stort ton f-I nn nr f-he  ::,. I L, :" ,"If -, HE== - MI=.   . - :. ;~ .1 ~ : . !, EWE  TK . ~~-  REBANEI K.K.; jq]Lqyqf~~Ij N.N. [Kriatoffel, 11.]; TRIPONOV P ye.b.; KHIZII?rfAKOV, ,V.V. Dynamics of a lattice with impurities and the quasi-line electron-vibration spectra of crystals. lzv. AN Eat. SSR. Ser. fiz.-mat. i takh. nauk 13 no.207-109 164. (KIRA l7s9) 1. Corrosponding Member of the Academy of Sciences of the Estonian S.S.R. (for Rebane).  L_A~2L-.~� EPA(s)-2A";T W/Evw (t)/E,,-T (b) I JP (c) JDIJG ACCESSION NR: APPI9863 uR/0181165/OOT/008/2444/2449 AUT11OR: Zavto G. S.; &JfitQtW#At.Y..; Xhizhrrjukov, V. V. T:11Ui Contribution to the theory of the width of infrared U-center absorption bands SOURCE: Fizika tverdoff. tela, v. To ix,. 8o 1965, 2444-2449 TOPIC TAGS: potassi chloride,, potascium bromide, activated crystal, line width# IR z pectrum, absorption 3Aneo crystal defecto impurity centerp crystal vibration# phonon interuction ABSTRACT: The purpose of the article vas to explain why recent experimental Mem- surements of the line width in systems M-1f, D and KBr-11 D (D. N. Mirlin and 1. 1. Resbinap FTT v. 5. 33520 1963; v. 6. 945 and 3078, iA have led to results that did not agree with previous theoretical explanations, namely that the width of the infrared bands of U-center absorption increases more rapidly with tempera- ture than follows from W acceptable decay scheme. The authors therefore conclude that the dominating contribution to the line width, at least at high temperaturesp is made by processes of higher orders,, namely 4-phonon processes for D centers and 5-phonon processes for H-centerss They prove this point of view by amlyzing a formula for the line width, which they derive in the following approximatimat It Card 1/2  L 6321-66 ACCESSION NR: AP5019%3 is assumed that the defect differs from the substituted ion in mass only. Inasmuch as the impurity level is well localizedo it is assumed that the defect participates only in the local vibrations,, and the crystalline vibrations at atoms neighboring on the defect are not perturbed. This means that In the case of D-centers it Is necessary to take into account procesoen In which two and three phonons are pro.- duced, and in the case of H-centers--three and four phonons. The anharmanic inter- actions of 3rd, 4th, and 5th orders are analyzed in the usual manner using the two-time Green's functions* The theoretical curve revised in this manner to In good agreement with the experimental ddta. "The authors thank D. N. Hirlin for useful discussions." Orig. art. hast 1 figure, 9 formulas.. and 1 table. ASSOCIATION: Institut fitiki I aatronomil AN ESSR# Turtu (Institute of nZaIcs and Astronomy AN ESSR) suBmITTED: i4Jan65 ENICU 00 SU CODE: SSj, OP NR REF SOV: OOT 0TW: 013 Card 2/2  L 6,,k~2_66 EW'r(m)/FWP(t)/f-'WP(b) IJP(c) JD/J(x ACCESSION NR: AP50107t, UR/0181/65/OOT/000/251,9/2522 vy - AU111OH: 1P H, N TITTZ.- Vibration 05FMCtrY MA Raman scattering spectra of alko,11-halide crystals with impurities SOURCE: Fizika tverdogo telap ve T# no*,Sv 1965., 2519-2522 21, qu, 'Elide") crystal impurity, cryctal symetry,, TOPTC TAGS: P.. 4pse ru!mj alkali phonon) Brillouin zone, spectii-i-Jane ABSTRACT: The authot irmestiestes Raman acattering in alkali-halide cryatals of the NaCl type with a substitutional impurlty at the lattice point. It it; assumed that the types of point symmetry of the crystalline (pseudoloce.1) and local Vibra- tions are the S=e as in a quasi-moleculc made up of the impurity and its neighbors', with which it interacts. Using the table constructed by R. Loudon (Proc. Phys. soc. v. 84, 379, 1964) and the compatibility tablea of Bouckaert et al. (Phya. Rev. Y. 50, 56, 1936) the author determines the phonon symmetries at the different points of the Brillouln zone and presents the nel.ection rules for the quasi-linear apec- trum of Raman scattering of these crystalk,. It is Ghown that the phonons at the points k 0 and X made no contribution tcodd-order lines, making it possible to Card 1/2 e-w  L 6332-66 ACCESSION NR.- Ar5o19874 explain some experimentally observed rules for poeudolocal oscillations,, previously observed by, the author (Tv. IFA AN ESSR No. 18o 149o 196,0. "The author is grate- ful to A. I. fteldmnov for a discussion of the problem and to K. K. Rebane and 0. S. Zavt for a ~Iscusdtd~ of the work." Orig. axt. has: 2 tables. " ASSOCIATION: Institut fizikl i astronomii AN ESSR) Tartu (Institute of Ptqslcs and Astronopq AN EMR) -F Yr, 5-,4~ SUBMITOM i 2TJan65 EWU 00 SUB CODE: OPp 63 RR REF SOV: 015 OTHERt 0013 nw Card 2/2  KRISTOFELI, N. [Kristof rel,N. ]I GODKALNS, Ae Theory of complex luminisoence canters. Part 1. Izv. AN Fat. SSIR. Bar. fis.-mat. i takh. nauk 14 no. 4t5D7-525 165 (MIRA 19:2) 1. Inatitut fiziki i astronouli AN Estonskoy SSR. Submitted November 23, 1964.  - - ------ ----- - -- - ---.--- -.---- -- --- ---I-- -- .- " t. -/ ,  i-T. r  ACC NRt AUTHOR: Kristofell.-Hojit- &3 0 ORG: none TITIX: Possibility of the Jahn-Taller effefft for the band states of crystals SOURCE: AN Est-SSR. Institut fiziki i astronomii. Trudy, no. 27, 1964. Issledovaniya po teorii tvardago, tela (gis-earch on the theory of solids), 85-98 phonon spectrum TOPIC TAGS: Aenergy band structuim, crystal theory, crystal lattice vibration crystal, crystal symmetry, band spectrum, electron interaction, phonon interaction ABSTRACT: The author considers the possibUity for a reduction in the symmetry of thi nuclear arrangement and a corresponfing splitting of the electron levels as a result of interaction between the degenerate elect,lvn state of a perfect crystal and nonholo- symetric lattice vibrations. The differenizoa between wide and narrow bands are con- sidered. In the case of wide bands, elactmi-phonon interaction is considered as a pei turbation for the band states. Only optica1 threshold vibrations may take part in tho er Jahn-Tell WNe . The effect is infinitely small for a single electron, but may be finite for a sufficiently large number of electrons in a degenerate band. In the caso of narrow bands, electron-phonon Interaction is first considered in a single call and then interaction between different calls is analyzed. Vibrations of the appropriate --synmtry--from-the-ei.tire-phon'oii spactrm-wa:v contribute- to~-the- affect 0- The -quasi~- 1/2  L 23527-66 ACC NR: AT6008834 molecular model which was developed earlier for impurity centers is applicable here (polarons and excitons of amll radius, "intramoleculaVI states, etc.). so" experi- ments for detection of the effect are discutised. The author Is grateful to K. K. Rebane as well as to-particLpants In-seminwis at the Department of Quantum anics. Leningrad State University and the Instituto of Physics_and Mathematics AN KSSA for disvission of the wark. Orig. art. has: 8 fomulas. SUB CODE; 20/ GUSH DATEt l3Nov63/ ORIG REF: 009/ OTH FEFt 007 2/Z - W)  L 235 A_AA ACC NRc AT6009335 SOURCE CODE: UR/2613/64/000/027/0099/0107 '~q I , AUTHOR: Kristofell N N Tyur*san, E. E. LL r) 7Z ORG: none /3 TITLE! Calculation of vibration frequency and lattice distortions near a vacancy pair in potassi chlori -ti -11 SOURCE:. AN EstSSR. Institut fizlki i astrog2mii-c, Trudy, no. 27, 1964. Issledovaniya po, teorii tverdogo tela ?Research an the theory of solids), 99-107 TOPIC TAGS: crystal lattice vibration, crystal lattice distortion, crystal lattice vacancy, potassium chloride, vibration frequoncy, approximation method ABSTRACT: The authors use the quas imolecularCappr-ox imat ion method, developed origi- c nally for impurity centers, to calculate let,: ce distortions and vibration frequency for ions near a vacancy pair in a sodium M-oride type crystal. Only displacements of the closest neighbors around the vacancy pair 4re considered (there are 10 nearest ions) and the remaining ions are assumed to lie fastened in equilibrium positions cor- responding to an ideal crystal. The calculations are based an a cation-anion vacancy pair in KC1. It is found that the distortion of the lattice near the defect gives a symmetry of C4v. The ftequency of the actual vibrations near the defect is 2.03- -1013 sec-1. The coupling energy of the vacancy pair is found to be 8.73 6v. The Ca,d 1/2  L Z'45ZO-00 ACC NRs AT6008335 authors are grateful to A. 1. Stekhanov who prompted the undertaking of this calcula-. tion. Orig. art. has: 2 figuree, 11 fomulas. SM CODE: 20/ SUBK DATE: 14Nov63/ ORIG W: 007/ OTH REF: 010 Card 2/2 -,!-.~/,  T 'I,),) A L IYT f) T TPk A k1 v ACC NRI AP6014056 SOME CODE: UR/0013/65/000/004/0507/0527 AUTHOR: Kristofell, 11. Kristoffel, 9 ; Godkalns, A. IORG: I-nstitute of Physics and Astronomy, Academy of Sciences Estonian SSR (Institut 'fiziki i astronomii Akademii nauk Estonskoy SSR) ;TITLE: On the theory of complex luminescence centers9l Part I SOURCE: AN EstSSR. Izvestiya. Seriya fiziko-matematicheskikh I tekhnicheskikh nauk, no. 4, 1965, 507-527 TOPIC TAGS; luminescence center, impurity centerl perturbation theory, crystal latt vacancy ABSTRACT: The paper discusses an impurity center in a static NaCl-type lattice, con- sisting of a divalent activator ion at a lattice point and a vacancy of a like ion of the lattice. General formulas are derived for the energy of a center with a mercury- like activator in the ground and split excited electron states. The corresponding tran sition energies for centers with C4. and C2. oymmetry are derived in terms of the wave functions of the ions and considering the effect of the field of the point lattice. The energy of a central ion in a lattice with defects, the energy of an impurity ion with an associated vacancy (considering the ground and excited state of the Impurity), 1/2   L 04146-67 EWT(fn)/T/ /E ACC NR, AP6026670 SOURCE CODE: UR/0181/66/008/008/2271/2279 11AUTHOR: Zavt, G. S.; Kristofe I .. W~ stitute of Physics and Astronomy, AN ESSR, Tartu (Institut fIzik1 I astronomii ORG: In A ESSR) TrrLE:, Distortion of band vibrations of NaCl -type crystals by monovalent impurities SOURCE: FIzIka tverdogo tela, v, 8, no. 8, 1966, 2271-2279 TOPIC TAGS: sodium chloride, single crystal lattice, Impurity band crystal impurity, oryaw lattice defect, Green function.7 CR~'S-nJ- I AIPSTRACT: An analysis Is given of the distortion of band vibrations of NaC 1-type crystals by monovalent Impurities In the lattice points. It Is based on a prVious study by Zavt (FTT, 7, 21q9, 1965.) In which it was shown that, In addition to excitinrAocal vibrations, the Impurities actJo modify lattice vibrations in the region of lattice defects J 'On this basis, the distortion of vibiations by defects 1.9 studied by oalculating the spectral density of the atom displacements in the ~rcgion of lattice defects (or the elgenvectors of the dynamic matrix). The method employed to ditermine these elgenvectors Is based on the introduction of modified Green functions. A distinctive feature of the method Is that the elgenvectors (or their combinations) consitute the Card 1/2  I-Aed-N F~-__Xk 0 2 6 6 7 0 particular solution of the equations of motion. Graphs showing the modified Green functions for KC I are presented, together with graphs that show the nature of the calculated band vibra-: tions of various types of symmetry. The authors are indebted to E. E. Saareste for program- ming the calculations of the Green's functions. Orig. art. has: 3 figures and 2i formulas. SUB CODE: 20/ SUBM DATE: 160ot65/ ORIG REF: 013/ OTH REF: 010 Card 2/ W!"AME M  ACC NR,' ,~P7004995- -----80tMCN CODEr UR/0046/66/030/009/1533/1536 AUTWR:.- Kristofol'ON.x ORO: none TITLE: Local levels of activator neighbors in alkali phosphors /iTeport, Fourteenth All-Uulon Conference on luminescence (Crystal Phosphors) hold at7k1gaj 16-23 Sept.1 SOtMC9z AN SSSR. Izvestiya. Beriya fizicheakaya, Y. 30, no.9, 1966, 1533-1536 TOPIC TAGS: luminescent crystals potassium chlorlde,;thalllum, absorption band, electron enorgy level, mathematic physics ABSIMCT: The author has calculated the energies of the 3p states of the C1 ions that are nearest neighbors to Tl+ impurity ions in a XCI lattice. The calculations have been described In more detail elsewhere (N.N.Kristofol'., Tr. In-ta fiz. I astrone AH EstSSR, No.32 (1966)). The calculations are of Interest because a knowledge of induced local levels is necessary for an understanding of the release of excitation from impurities and the trapping of holes, and for the Interpretation of spectral bands associated with energy transport (trapped excitons). F6r the calculations, the Hartree-Fock determinant was formed with one-electron wave functions centered on separate ions and ealculated with the effect of the Aield of the point lattice taken into account# and the off-diagonal energy matrix ele"uts were neglected. In this approximation the valence band reduces to a levels and the appr*xImation is therefore  ACC NRj "7004995 .suitable only when the valence bond Is narrow. The 4unerical results are accordingly regarded as merely Indicative. The calculations indicated that the valence band lies 10,6 eV below the vacuum leve4 this is in good agreement with the position of the top of the valence band as calculated by L,Howland (Physt! Rev., 109, 1927 (1958)). The calculated positions of the 3s levels are Oe72 eV above the valence band and 0.71 eV below it. After some discussion it in concluded that on the present model the of transfer" D absorption band of XCIM must be ascribed to an electronic transition from an induced local level of a CI-Jon nolgbborIng,a Tl* Ion. It Is suggested that induced local levels may affect the .x-ray spectrum aid that relevant Information might I also be obtained from paramagnetic resonance studios4 The author thanks X.N.Robanap N.Ye.Lushchik and ChoDoLushchik for discussionas Orig..art. has: 4 formulate SUB ODDEs 20 SUBM DAM none ORIO, REY: 013 OTH REY: 007 Card 2/2  ACCESSION NR: AT4020807 B/2613/63/000/023/0216/0218 AUTHOR: Kristofell, N. N. ; Tyurkson, E. E. TIT~M. Calculation of the wave functions of tons in the calcium fluoride crystal SOURCE: AN EstSSR. Inatitut fiziki I aatronomli. Trudy*, no. 23, 1963. Issledovaniya po lyuminestsentaii (Research in huninesconce), 216-218 *TOPIC TAGS: wave function, ton wave function, calcium fluoride, fluorite, fluorite ton wave function, calcium fluoride crystal lattice ABSTRACT: In connection with the use of activated fluorite crystals In quantum geneia- tors, there has been an Increased Interest in recent times in the study of the various pro, perties of Car' 2. Fluorite to one of the Ionic crystals. In calculating Its different charac- terlstics in a zero approximation, It to possible to call upon the wave functions of the tons Ca++ and F-, with proper consideration of the Madelung field of the surrounding ionic lattice. As the result of a standard calculation, the details of which are not discussed in the article, the authors obtained the data for normalized radial functions Mth allowance for the field of the crystal) shown in Table 1 of the Enclosure. As in the case of alkali -halide crystals, as compared with the free tons, the anion in-the crystal to "compressed" and the cation is "extended". Some notion of the quality of the wave functions obtained Cat-d 1/4  ACCESSION NR: AT4020807 (for intemal shells the corresponding functions of the free tons are used) may be derived from a calculation -of- the diamagnetic susceptibility of the CaF2 crystal. The diamagnetic susceptibility of-the Ion was calculatod according to the.formula: 9a V W Adr. where me U(i)=E 2(21+1)JR,~te)t andforCaF2 3=3(ca+ Ile results are given in Table 2 of the Enclosure X - 10-6 om-3 mole). Vt. hasi 2 tables and 3 formulas. ASSOCIATION: Institut Mild I astronomil AN EstM (Institute of Physics and Astronomys AN EstSSR) SUBMIWED: 08Jun63 DATE ACQ: 07Apr64 ENCI4 02 SUB CODE-, P11 NO REF SOV: 003 OTMt 003 Card 2/4  U- Va*4020807- MmUsmt 01 TABLE I "u F-: -77T 0 - 6.0 Jxo(r)= 2OW (I +T r 1,126r)t Tf&) 'x 1,2