Best sources in Tajik Wikipedia PR-model

AR-model | F-model | PR-model
#WebsiteScore in June 20201m changes
1gosspravka.ru2,626,500+100,100
2khovar.tj746,446-582,560
3ozodi.org740,531+274,806
4wikipedia.org261,685-55,208
5un.org122,645-2,435
6kmt.tj112,968+49,405
7amar.org.ir81,931-12,417
8ansor.info79,710-1,630
9president.tj71,511-11,226
10stat.tj66,608-25,892
11jumhuriyat.tj64,036+2,310
12tajikbooks.tj60,300-9,800
13academic.ru59,050-14,408
14worldwaterfalldatabase.com58,886+100
15news.tj50,754-17,419
16nasco.int49,620-800
17vazhaju.com41,856+3,234
18archive.org39,239-1,547
19cia.gov33,417-4,940
20wikimedia.org29,953-8,700
21tnu.tj29,763-2,989
22narod.ru27,625-1,888
23books.google.com26,898-8,635
24ktr.tj24,350-17,900
25andesha.tj24,188+3,046
26unesco.org23,760+2
27parlament.tj21,722-11,255
28britannica.com21,675+2,613
29sputnik-tj.com21,597-8,143
30nih.gov19,947-9,739
31omuzgor-news.tj19,449-10,740
32iupac.org19,102-16,015
33ndt-ed.org19,035-15,925
34nytimes.com18,381-4,897
35countrymeters.info18,339+3,507
36ria.ru17,740-3,972
37maktab.tj17,585-7,090
38khoma.tj17,266-4,500
39bnonews.com17,160-30,938
40calend.ru17,150-450
41imf.org17,039-63
42bbc.com16,996-5,181
43argumenti.ru16,900-2,200
44ozodagon.com15,945-5,311
45undp.org15,468-325
46ozodagon.tj14,706-684
47bbc.co.uk13,967-4,962
48archive.is13,943-1,795
49naco.org13,500-1,300
50pitfi.tj13,176-2,457
51persianacademy.ir12,850+3,050
52google.ru12,742+371
53moi.go.kr12,500+1,600
54majmilli.tj12,476+5,104
55linuxreviews.org11,750-2,500
56mid.ru11,722+1,829
57census.gov11,620-1,250
58vfarhang.tj11,488+1,583
59tajmedun.tj11,466-4,400
60lenta.ru11,305-6,228
61citypopulation.de10,996-2,381
62rg.ru10,995+226
63hol.es10,480+190
64gafurov.tj10,123+2,389
65stat.uz10,051-1,049
66hamsafon.tj9,922+1,010
67centrasia.ru9,766-3,408
68anrt.tj8,909+934
69insee.fr8,792-2,054
70cern.ch8,650-1,800
71merriam-webster.com8,646-2,483
72tojnews.org8,642-591
73navisandagan.tj8,531-1,799
74durahshon.tj8,429-5,562
75dushanbe.tj8,425-1,726
76unesco.tj8,300-3,355
77visa4uk.ru8,266+566
78worldometers.info8,233-2,933
79medt.tj8,216-3,250
80csic.es8,200+8,200
81migration.tj8,200-200
82vajehyab.com8,196+863
83customs.tj8,000+200
84pons.com7,900+7,900
85rtsu.tj7,884-5,754
86statistics.gov.uk7,841-3,825
87gonchi.tj7,834+1,766
88kinonews.ru7,825-2,691
89fifa.com7,795+241
90fnal.gov7,735-2,060
91stanford.edu7,733-1,563
92mofa.gov.pk7,600-1,100
93echo.msk.ru7,600-1,550
94wwhp.ru7,476-1,853
95kremlin.ru7,469-1,233
96youtube.com7,456-5,687
97ine.es7,366-3,867
98usatoday.com7,355-1,135
99prezident.tj7,225-2,024
100world-gazetteer.com7,189+1,508
101faraj.tj7,167-4,091
102regionalstatistik.de7,000-200
103geosfera.info6,800+3,400
104gnu.org6,750+1,300
105fsf.org6,750+1,300
106khonavoda.com6,673+197
107armstat.am6,544-1,133
108cnn.com6,386+680
109wikimedia.de6,342+857
110loc.gov6,260+423
111thinkmobiles.com6,200-200
112unipage.net6,166+1,166
113mosday.ru6,166+1,900
114ozodi.tj6,160-1,578
115nplus1.ru6,000-1,700
116kunstkamera.ru5,826-2,232
117theatlanticcities.com5,800-3,100
118nasa.gov5,773-1,181
119financialtribune.com5,750+5,750
120joshuaproject.net5,715-1,986
121tiroz.org5,683-1,433
122gramota.ru5,651-187
123fallingrain.com5,630+833
124irib.ir5,627-3,158
125digikala.com5,500-22,600
126hgu.tj5,497+3,342
127mmk.tj5,491-2,350
128inogolo.com5,300-2,699
129riaziane.com5,300-1,500
130imdb.com5,280+1,503
131ovozisamarqandnews.uz5,166-2,400
132sns.tj5,142-2,858
133sadoimardum.tj5,131-276
134researchgate.net5,131-3,840
135tgpu.tj5,006+1,946
136ravshanfikr.tj4,958-4,633
137demoscope.ru4,957-100
138shahbazi.org4,900+600
139vazhaju.tj4,900+2,000
140turkstat.gov.tr4,898-661
141kartverket.no4,850+150
142ssb.no4,850+150
143untj.org4,834-1,360
144urfu.ru4,800-900
145mashke.org4,762-600
146forvo.com4,750-3,221
147yandex.ru4,747-581
148facebook.com4,684-557
149apple.com4,656+331
150pressa.tj4,631+623
151mtrd.ir4,625+509
152bamsec.com4,600-1,933
153jahonnamo.tj4,517-1,172
154ceroacero.es4,503-33
155iranicaonline.org4,443-950
156ksaadat.co4,425-1,907
157cnews.ru4,425-950
158mapuniversal.com4,400-1,700
159millat.tj4,397+859
160gio.gov.tw4,300-100
161olympic.org4,275-1,325
162hakikati-sugd.tj4,266-981
163ruzgor.tj4,225-1,199
164reuters.com4,116-1,173
165tvt.tj4,002-1,086
166tajik-gateway.org3,994+90
167asiaplustj.info3,987-17,816
168asiaplus.tj3,982+891
169gki.gov.by3,950-125
170belstat.gov.by3,917-150
171kumitaizabon.tj3,885-454
172navy.mil3,849+50
173bigenc.ru3,843+726
174bahamas.gov.bs3,800+800
175carnegieendowment.org3,700+1,300
176sugd.tj3,627-171
177tgfeu.tj3,600+3,600
178sanoat.tj3,587+171
179mvd.tj3,566-11,359
18012apr.su3,560-159
181domaintools.com3,525+200
182nbt.tj3,516-567
183academia.edu3,508-679
184biolib.cz3,500+200
185semanticscholar.org3,487-2,302
186dvorlat.ru3,400-2,300
187xakep.ru3,350-100
188abbyyonline.com3,333-2,233
189fas.gov.ru3,333-2,233
190navid.tj3,316-699
191zamin.uz3,300+975
192nic.ru3,283-417
193moh.tj3,280-28,418
194mit.edu3,225-8,300
195theplantlist.org3,216-67
196ibm.com3,200-1,400
197lingvowiki.info3,1660
198dmt.tj3,133+617
199mfa.tj3,129-1,022
200stat.gov.pl3,100-300

Scientific publications with DOI number

#WebsiteScore in June 20201m changes
1New notations in the periodic table19,035-15,925
2The anatomy of a large-scale hypertextual Web search engine3,333-2,233
3Web search for a planet: the google cluster architecture3,333-2,233
4Superheavy elements a prediction of their chemical and physical properties1,134-1,473
5Spin-density-wave antiferromagnetism in chromium850-100
6Predicting the properties of the 113-120 transactinide elements827-1,350
7First-principles calculation of the structural stability of6dtransition metals721-837
8Bonding and the electronic structure of the actinide metals610-746
9What is the Young’s Modulus of Silicon?545-945
10Helium Group Gases515-188
11Corrected Values for Boiling Points and Enthalpies of Vaporization of Elements in Handbooks466-600
12The Tajiks of Uzbekistan436-92
13The alpha half-life of berkelium-247; a new long-lived isomer of berkelium-248400-900
14Report of the IAU Working Group on Cartographic Coordinates and Rotational Elements: 2009379-172
15Analytical expressions for thermophysical properties of solid and liquid tungsten relevant for fusion applications325-125
16THE NICHE CONSTRUCTION PERSPECTIVE: A CRITICAL APPRAISAL322+11
17Structural geology of the Earth’s interior312-102
18The age of the Earth in the twentieth century: a problem (mostly) solved312-102
19The electrical resistivity of 244Cm metal300-350
20The crystal structure of β-tantalum300-466
21Copernicium: A Relativistic Noble Liquid262-375
22Physical Properties and Interrelationships of Metallic and Semimetallic Elements255-100
23New limits on naturally occurring electron capture of123Te250-150
24Graphite-liquid-vapor triple point pressure and the density of liquid carbon175-91
25Measurements of the melting point of graphite and the properties of liquid carbon (a review for 1963–2003)175-91
26Neutron-deficient superheavy nuclei obtained in the Pu240+Ca48 reaction167-176
27Synthesis of a New Element with Atomic NumberZ=117167-201
28Determination of boron in glass by neutron transmission method160-130
29III. The Bakerian Lecture. An account of some new analytical researches on the nature of certain bodies, particularly the alkalies, phosphorus, sulphu...160-130
30Determination of the Indium Freezing-point and Triple-point Temperatures160-200
31Atmospheric pressure as a natural climate regulator for a terrestrial planet with a biosphere156-51
32Tidal dissipation in the oceans: astronomical, geophysical and oceanographic consequences156-51
33Evolution of the Earth-Moon system156-51
34How Many Species Are There on Earth?156-51
35Source regions and timescales for the delivery of water to the Earth156-51
36Earth’s early atmosphere156-51
37Mantle Convection and Plate Tectonics: Toward an Integrated Physical and Chemical Theory156-51
38Chimborazo and the old kilogram156-51
39The Volume of Earth’s Ocean156-51
40A short timescale for terrestrial planet formation from Hf–W chronometry of meteorites156-51
41Geochemical implications of the formation of the Moon by a single giant impact156-51
42Chemical composition of the Earth after the giant impact156-51
43The Aeronomy of Hydrogen in the Atmosphere of the Earth156-51
44Biogenic Methane, Hydrogen Escape, and the Irreversible Oxidation of Early Earth156-51
45Hydrogen Loss from the Terrestrial Planets156-51
46THE PHYSICAL BASIS OF THE LEAP SECOND156-51
47Topography of the Moon from the Clementine lidar153-70
48Determination of selenographic positions153-70
49Review of even element super-heavy nuclei and search for element 120145-283
50Condensed Astatine: Monatomic and Metallic142-343
51On the crystal structure of protactinium metal140-160
52The International Temperature Scale of 1990 (ITS-90)136-9
53Noble Gases136-9
54On the companions of argon136-9
55The discovery of the elements. XII. Other elements isolated with the aid of potassium and sodium: Beryllium, boron, silicon, and aluminum136-236
56Silicon era136-236
57The electrical resistivity and specific heat of americium metal125-275
58Standard Atomic Weight of Ytterbium Revised120-160
59The As (Arsenic) system116-200
60Genetic Control of Biochemical Reactions in Neurospora100-100
61Review of Particle Physics100-88
62Report of the IAU/IAG Working Group on cartographic coordinates and rotational elements: 200694-11
63Classifying superheavy elements by machine learning89-132
64‘CALCULATIONAL CHEMISTRY’ OF THE SUPERHEAVY ELEMENTS; COMPARISON WITH ELEMENTS OF THE 7TH PERIOD [1]85-86
65Experimental studies of the249Bk + 48Ca reaction including decay properties and excitation function for isotopes of element 117, and discovery of the ...82-173
66Observation of two-neutrino double electron capture in 124Xe with XENON1T81-55
67Improved measurement of the2νββhalf-life of136Xe with the EXO-200 detector81-55
68Mass and Double-Beta-DecayQValue ofXe13681-55
69Blocking-resistant communication through domain fronting80-20
70Ionization Potentials, Electron Affinities, Resonance Excitation Energies, Oscillator Strengths, And Ionic Radii of Element Uus (Z= 117) and Astatine75-262
71The Pluto System After New Horizons72-33
72Mean radius and shape of Pluto and Charon from New Horizons images72-33
73Estimation of the Chemical Form and the Boiling point of Elementary Astatine by Radiogaschromatography71-171
74Measurement of the first ionization potential of astatine by laser ionization spectroscopy71-171
75Ca48+Bk249Fusion Reaction Leading to ElementZ=117: Long-Livedα-DecayingDb270and Discovery ofLr26653-130
76Lifting the veil on trichotillomania500
77Trichotillomania500
78Production and Identification of Transactinide Elements50-18
79Prospects for further considerable extension of the periodic table45-19
80Super heavy element Copernicium: Cohesive and electronic properties revisited43-63
81Electronic structure theory of the superheavy elements40-40
82Hartree–Fock–Roothaan energies and expectation values for the neutral atoms He to Uuo: The B-spline expansion method38-69
83Exciting Interdisciplinary Physics37-38
84Oganesson Is a Semiconductor: On the Relativistic Band‐Gap Narrowing in the Heaviest Noble‐Gas Solids33-39
85Colloquium : Superheavy elements: Oganesson and beyond33-39
86Some physical and chemical properties of element 118 (Eka-Em) and element 86 (Em)33-39
87Synthesis of the isotopes of elements 118 and 116 in theCf249andCm245+Ca48fusion reactions33-39
88A beachhead on the island of stability33-39
89Predicted properties of the super heavy elements. I. Elements 113 and 114, eka-thallium and eka-lead28-57
90REMARKS ON THE FISSION BARRIERS OF SHN AND SEARCH FOR ELEMENT 12028-43
91Revisiting the ground state phase stability of super-heavy element Flerovium27-36
92Experiments on the synthesis of superheavy nucleiFl284andFl285in thePu239,240+Ca48reactions27-36
93Study of the Reaction 48Ca + 248Cm → 296Lv* at RIKEN-GARIS27-36
94Theoretical predictions of properties of group-2 elements including element 120 and their adsorption on noble metal surfaces260
95The 1966 Election in California22-5
96The 1970 Election in California22-5
97The Origins of Afroasiatic21+8
98Fully relativistic study of intermetallic dimers of group-1 elements K through element 119 and prediction of their adsorption on noble metal surfaces18-19

Popularity and reliability assessment of sources in references of Wikipedia in different languages. Data extraction based on complex method using Wikimedia dumps in July 2020. More details in the research "Modeling Popularity and Reliability of Sources in Multilingual Wikipedia". Values for PR-score and AR-score were additinaly increased 100 times (to distinguish smaller values in the ranking).

Useful links: