Fidal Prize: Difference between revisions
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{{Info|You can add your own nations, contributions and scientists as you please, including repeating contributions or sharing contributions. Multi-nationality characters and women laureates are all welcome. Please avoid claiming to have discovered x or y or naming physical and mathematical laws and theorems after your characters}}
[[Category:Packilvania]]
{{Infobox award|native_name=''luJayiza aluDhakra aMunhadim Fidal alu Bidhamloheemliyah nadine aluRaqmaliyah'' ([[Packilvanian]])|motto="''Mitakabadal du lesirun alubidham aMin''" ("I shall grant you knowledge of My Creation") (Surah 12 of the [[Writings of Paxism|Bas Magdamar]])|post-nominals=FDL|winners=See list of recipients below|established={{Start date and age|1768|5|28}}|website=fidal.org.pax|total_awarded=1016|awardname=Munhadim Fidal Memorial Prize for Physics and Mathematics|reward=5 million [[Kirib]] (600 million [[Packilvanian dinar]])|awarded_for=Contributions to mathematics and physics|status=Active|presenter=[[Sultan of Packilvania]]|country=[[Packilvania]]|location=[[Bingol]]|venue=Imogen Duhavid Hall|sponsor=Imperial Academy of Science|name=|image=Fidal Prize.png|image2={{Multiple image|image1=Fidal Prize - Obverse.png|image2=Fidal Prize - Reverse.png|caption1=Obverse side of the medal|caption2=Reverse side of the medal}}}}
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It was established to recognise the contributions of Packilvanians to physics and mathematics but expanded to acknowledge contributions made by foreigners as well in 1791 under Sultana Zerah Demir II. The prize was named after Munhadim Fidal who was believed to have been the first Packilvanian to introduce negative numbers to the number line in 200 [[Common Era calendar|BCE]]. In 1920, the Imperial Academy of Science was renamed the People's Academy of Science by the [[Packilvanian Communist Party]], 2 years after the deposing of [[Zerah Demir IV]], but the prize remained the same. There were accusations that the bias of the prize had shifted to recognising the contributions of academics who were aligned to the Communist and Socialist cause and the ideals proliferated by [[Nikobar Luden]].
When the [[Carriers of Mercy]] established a [[Paxism|Paxist]] monarchy under the [[Bedonite dynasty]], the People's Academy of Science was renamed as the Imperial Academic of Science and the Fidal Prize. The award is presented by the [[Sultan of Packilvania]] (or
==Recipients==
[[File:Ālī Qāpū in blue time.jpg|left|thumb|A night time view of the [[Halaler Imperial Palace]] in Hahaler, [[Fidakar]] which contains the Imogen Duhavid Hall where the awards are bestowed]]
{| class="wikitable"
! rowspan="2" |Year
Line 27 ⟶ 29:
|2022
|Temad Xabiyat
Ilham Khumraad
Raheem Shulmid
|Contributions to the theory of Modified Gravity through their study on asymmetric tidal tails of open star clusters
|
|
|Dame Rosamund Rothgerus
Renata Wiltpotsried
|{{Flag|Great Morstaybishlia}}{{Flag|North Ethalria}}
|For experiments with entangled photons, establishing the violation of Bell inequalities and pioneering quantum information science
|
Line 38 ⟶ 43:
|-
|2021
|Shabal Wasoon,
Palhaad Warshad,
Qanid Ixoriad
|Contribution to the study of the expansion of the universe through metanalysis of neutron star data that provides new evidence on the [[W:Hubble's law|Law and Constant of Intergalactic Expansion]]
|
|
|Gazny Sukegei
|{{flagicon image|AlemsiFlag.png}} [[Älemsi Negdel]] -
[[File:CryriaFlag.png|frameless|25x25px]][[Cryria]]
|For the physical modelling of
|
|
Line 51 ⟶ 59:
|2020
|Sonahed Wedan
|Contributions to the understanding of the identification of turbulent filaments in plasma in tokamak fusion reactors
|
|
|Unaya Jutal
|[[File:Auravas flag.png|frameless|25x25px]][[Auravas]]
|For the contribution to the discovery that black hole formation is a robust prediction of the general theory of relativity
|
Line 63 ⟶ 71:
|2019
|Sabna Wadmun
|Contributions to the theory of modified gravity
|
|
Line 75 ⟶ 83:
|2018
|Jamal Hudeen
|Contributions to the understanding of the relativistic quantum quasi-bound states of supercritical atomic collapse
|
|
|Lord Finneas Permandua, Earl of Mount Avensea
Joana Duttenstadt
|{{Flag|Great Morstaybishlia}}{{Flag|Faethalria}}
| For groundbreaking contribution to the inventions in the field of laser physics, in particular for the optical tweezers and their application to biological systems
|
|
Line 86 ⟶ 95:
|-
|2017
| Khalnadun Yashfadeen
|
|
|
|Ilya Yaroslavich
|{{Flag|Volkia}}
|For decisive contributions to the LIGO detector and the observation of gravitational waves
|
Line 98 ⟶ 107:
|-
|2016
| Not awarded
|
|
Line 109 ⟶ 118:
|
|-
| 2015
|Jebal Hildoon-Abenai
|
|
|
|Elam Vjinsenfjord
|{{Flag|South Hills}}
|For the contribution to the discovery of neutrino oscillations, which shows that neutrinos have mass
|
Line 121 ⟶ 130:
|
|-
|2014
|Jehadeen Filwadoon
|
|
|
|Sir Barnaby Phillips
|{{Flag|Great Morstaybishlia}}
|For the contribution to the invention of efficient blue light-emitting diodes which has enabled bright and energy-saving white light sources
|
Line 138 ⟶ 147:
|
|
|Julio Aceves de Mauregato
|{{Flag|Peragen}}
|For the theoretical contribution to the discovery of a mechanism that contributes to our understanding of the origin of mass of subatomic particles, and which recently was confirmed through the contribution to the discovery of the predicted fundamental particle, by the ATLAS and CMS experiments at CERN's Large Hadron Collider
|
Line 145 ⟶ 154:
|
|-
| 2012
|Samad Waslamiya
|
|
|
|Yamdan Zaprotziashvili
Vladimer Milaykhidze
|{{Flag|Tivot}}<br>{{flagicon image|Nolovaflag.png}} [[Nolova]]
|For ground-breaking experimental methods that enable measuring and manipulation of individual quantum systems.
|
Line 162 ⟶ 172:
|
|
|Alexei Matveyovski
|{{Flag|Volkia}}
|For the contribution to the discovery of the accelerating expansion of the Universe through observations of distant supernovae
|
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|-
|2010
| Iman Radwahal
|
|
Line 193 ⟶ 203:
|
|-
|2008
| Rihaad Basoon
|
|
Line 200 ⟶ 210:
|
|
| For the contribution to the discovery of the origin of the broken symmetry which predicts the existence of at least three families of quarks in nature
|
|
Line 206 ⟶ 216:
|-
|2007
|Lord Hussein Amhadahan, VIscount of Holmandahan
|
|
Line 222 ⟶ 232:
|
|
|Rilian Avastru
|{{Flag|Vekaiyu}}
| For their contribution to the discovery of the blackbody form and anisotropy of the cosmic microwave background radiation
|
|
Line 234 ⟶ 244:
|
|
|Lehamír Qáhovir
|{{flagicon image|New_Leganes_flag.png}} [[New Leganes]]
|For
|
|
|
|-
|2004
| Gimaan Sobiro
|
|
Line 249 ⟶ 259:
|
|For the contribution to the discovery of asymptotic freedom in the theory of the strong interaction
|Adoati Wachinika
|{{Flagcountry|Kuduk}}
|For major contributions to the theory and application of partial differential equations and to the computation of their solutions.
|-
|2003
Line 260 ⟶ 270:
|
|
| For pioneering contributions to the theory of superconductors and superfluids
|
|
Line 270 ⟶ 280:
|
|
|Sibilla Cancelliere
|{{flagicon image|Flag_of_Celanora.svg}}[[Celanora]]
|For pioneering contributions to astrophysics, in particular for the detection of cosmic neutrinos
|
Line 296 ⟶ 306:
|
|
| For developing semiconductor heterostructures used in high-speed- and optoelectronics
|
|
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|-
|1999
|Lord Helawad Fulmadeen, Earl of Sharwahad
|
|
Line 307 ⟶ 318:
|
|
| For elucidating the quantum structure of electroweak interactions in physics
|
|
Line 314 ⟶ 324:
|-
|1998
|Lord Mahmoud Insulmftahan, Earl of Palhawadoon
|
|
|
| Sol Arwén
|[[File:New Leganes flag.png|frameless|20x20px]] [[New Leganes]]
|For their contribution to the discovery of a new form of quantum fluid with fractionally charged excitations
|
|
Line 326 ⟶ 336:
|-
|1997
|Sir Finhadeem Khamad
|
|
Line 338 ⟶ 348:
|-
|1996
|Sir Gurayeen Hilshodeen
|
|
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|-
|1995
|Dame Jumhadina Rashahadun
|
|
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|-
|1994
|Dame Kimrohed Thawahaned
|
|
|
| Akahera Hanakuhi
|{{Flag|The Oan Isles}}
|For the contribution to the development of neutron spectroscopy and for pioneering contributions to the contribution to the development of neutron scattering techniques for studies of condensed matter
|
Line 374 ⟶ 384:
|-
|1993
|Hilran Jumhadeen
|
|
|
|Tala Fastarsk
|[[File:Auravas flag.png|frameless|25x25px]][[Auravas]]
|For the contribution to the discovery of a new type of pulsar, a contribution to the discovery that has opened up new possibilities for the study of gravitation
|
|
|
|-
| 1992
|Prince Ermadeel
|
|
|
|Sir Rymos Ethilridor
|{{Flag|Great Morstaybishlia}}
|For their contribution to the invention and contribution to the development of particle detectors, in particular the multiwire proportional chamber
|
|
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|-
|1991
|Sir Umhadien Yulrahamoon
|
|
|
|Dimash Astryonashvili
|{{Flag|Tivot}}
|For discovering that methods developed for studying order phenomena in simple systems can be generalized to more complex forms of matter, in particular to liquid crystals and polymers
|
Line 409 ⟶ 419:
|
|-
| 1990
|Princess Salrahanlea
|
|
|
|Th'are Saul't
|[[File:Untitled Artwork-1.jpg|frameless|20x20px]][[Aikthudr'zhur]]
| For their pioneering investigations concerning deep inelastic scattering of electrons on protons and bound neutrons, which have been of essential importance for the contribution to the development of the quark model in particle physics
|
|
|
|-
|1989
|Sir Irohed Mutuhan
|
|
|
|Islya-Nore Taurá
|[[File:New Leganes flag.png|frameless|20x20px]] [[New Leganes]]
|For the contribution to the invention of the separated oscillatory fields method and its use in the hydrogen maser and other atomic clocks
|
|
Line 434 ⟶ 444:
|-
|1988
|Sir Boraheen Yabradeen
|
|
|
|Fatima Zalfajad
|{{Flag|Sayyed}}
| For the neutrino beam method and the demonstration of the doublet structure of the leptons through the contribution to the discovery of the muon neutrino
|
|
Line 446 ⟶ 456:
|-
|1987
|Sir Olmada Heratan
|
|
Line 458 ⟶ 468:
|-
|1986
|Lord Farouk Jhahdafanash, Viscount of Qasmadeen
|
|
|
|Denise Loydovistre
|{{Flag|Vekaiyu}}
| For their fundamental work in electron optics, and for the design of the first electron microscope
|
|
Line 470 ⟶ 480:
|-
|1985
|Sir Prahaden Bulhameed
|
|
Line 482 ⟶ 492:
|-
|1984
|Tarol Amhodien
|
|
|
|Pablo Florentino
|[[File:Puntaliaflag2.png|frameless|20x20px]] [[New Puntalia]]
|For their decisive contributions to the large project, which led to the contribution to the discovery of the field particles W and Z, communicators of weak interaction
|
Line 494 ⟶ 504:
|-
|1983
|Habed Uhayed
|
|
Line 500 ⟶ 510:
|Ludo Gyllir
|[[File:Laplisznaflag.jpg|frameless|20x20px]] [[Lapliszna]]
|For
|
|
Line 506 ⟶ 516:
|-
|1982
|Pajeer Wasail
|
|
|
|Igor Vladislavovich
|{{Flag|Volkia}}
| For their theory for critical phenomena in connection with phase transitions
|
|
Line 518 ⟶ 528:
|-
|1981
|Kemal Ubinad
|
|
Line 529 ⟶ 539:
|
|-
|1980
|Sokhadun Khanapahad
|
|
Line 542 ⟶ 552:
|-
|1979
|Shamalien Wastahfun
|
|
|
|Orson Keaneward-Garelli
|{{Flag|Great Morstaybishlia}}
|For their contributions to the theory of the unified weak and electromagnetic interaction between elementary particles, including, inter alia, the prediction of the weak neutral current
|
Line 558 ⟶ 568:
|
|
|Alhadiyat Belapakahang
|[[File:United Malordia.png|frameless|20x20px]] [[United Malordia]]
|For
|
|
Line 570 ⟶ 580:
|
|
|Pavla Sharevidze
|{{Flag|Salovia}}
|For their fundamental theoretical investigations of the electronic structure of magnetic and disordered systems
|
Line 596 ⟶ 606:
|
|
|For the contribution to the discovery of the connection between collective motion and particle motion in atomic nuclei and the contribution to the development of the theory of the structure of the atomic nucleus based on
|
|
Line 606 ⟶ 616:
|
|
|Eric Pamplemousse
|{{Flag|Federation of the Southern Coast}}
|For their pioneering research in radio astrophysics: Ryle for
|
|
Line 655 ⟶ 665:
|
|
|Rudrick Brün
|{{Flag|Ethalria}}
|For
|
|
Line 674 ⟶ 684:
|
|-
|1970
|
|
Line 693 ⟶ 703:
|
|
|For
|
|
Line 703 ⟶ 713:
|
|
|Ekaterina Yastreshvili
|{{Flag|Salovia}}
|For
|
|
|
|-
|1967
|
|
|
|
|Katir Seyvanre
|[[File:Auravas flag.png|frameless|25x25px]][[Auravas]]
|For
|
|
Line 727 ⟶ 737:
|
|
|Hadamarno Jakorno
|[[File:United Malordia.png|frameless|20x20px]] [[United Malordia]]
| For the contribution to the discovery and contribution to the development of optical methods for studying Hertzian resonances in atoms
|
|
|
|-
| 1965
|
|
|
|
|Indina Syavala
|{{Flag|Vekaiyu}}
|For their fundamental work in quantum electrodynamics (QED), with deep-ploughing consequences for the physics of elementary particles
|
Line 758 ⟶ 768:
|
|-
| 1963
|
|
Line 765 ⟶ 775:
|
|
|For
|
|
Line 771 ⟶ 781:
|-
|1962
|Waldam Yalmirun
|
|
Line 777 ⟶ 787:
|Dirk van der Venter
|[[File:Hvaloasznaflag.png|frameless|20x20px]] [[Hvaloaszna]]
|For
|Evert Ossler
|[[File:CryriaFlag.png|frameless|25x25px]][[Cryria]]
Line 783 ⟶ 793:
|-
|1961
|Urhimed Fadumeen
|
|Helmadeen Barkhadan
|
|
|
| For their pioneering studies of electron scattering in atomic nuclei and for their thereby achieved discoveries concerning the structure of the nucleons
|
|
|
|-
|1960
|Shabahan Olhumad
|
|Bulhalil Porhamoon
|
|
Line 807 ⟶ 817:
|-
|1959
|Solhadek Khurnidek
|
|Vrahadina Malwadeen
|
|Demetrio Bramante
|{{flagicon image|Flag_of_Celanora.svg}}[[Celanora]]
|For their contribution to the discovery of the antiproton
|
Line 819 ⟶ 829:
|-
|1958
|Dulhameen Rumjan
|
|Kharmadina Luhandeen
|
|
Line 831 ⟶ 841:
|-
|1957
|Sehabin Ulmahadeen
|Contributions to understanding the charge of kaon particles
|Inhadeel Jumhuriya
|
|
|
|For their penetrating investigation of the so-called parity laws which has led to important discoveries regarding the elementary particles
|
Line 843 ⟶ 853:
|-
|1956
|Talmoodeen Fadahan
|
|Qarhadan Yurmihan
|
|Shabeel Imhadeen
|[[File:Flag of Drakkengard.png|frameless|20x20px]] [[Drakkengard]]
|For their researches on semiconductors and their contribution to the discovery of the transistor effect
|
Line 855 ⟶ 865:
|-
|1955
|Dulriamin Shabal-Gurayeen
|
|Rubadeen Khalmanion
|
|
|
|For their discoveries concerning the fine structure of the hydrogen spectrum
|
|
Line 867 ⟶ 877:
|-
|1954
|Manhumiyad Exaridan
|
|Axaniya Warmidan
|
|
|
|For their fundamental research in quantum mechanics, especially for their statistical interpretation of the wavefunction
|
|
Line 879 ⟶ 889:
|-
|1953
|Malayka Imhadien
|Contributions to the understanding of the potentially broken symmetry between antimatter and matter
|Tolhadek Irhumin
|
|Thistle Morgensen
|{{Flag|South Hills}}
|For their demonstration of the phase contrast method, especially for their contribution to the invention of the phase contrast microscope
|
|
Line 891 ⟶ 901:
|-
|1952
|Erameed Fuljawar
|Contributions to the understanding of particle chirality
|Sarjahan Gulmadeen
|
|Ibrahim Hafninejad
|{{Flag|Sayyed}}
|For their contribution to the development of new methods for nuclear magnetic precision measurements and discoveries in connection therewith
|
Line 905 ⟶ 915:
|
|
|Jamal Shaldadeen-Medaan
|Contributions to understanding of positive curvature of the universe
|William Urbane
|{{Flag|South Hills}}
|For their pioneer work on the transmutation of atomic nuclei by artificially accelerated atomic particles
|
Line 921 ⟶ 931:
|Lysius Jørgensen
|[[File:Syrtænzna.png|frameless|20x20px]][[Syrtænzna]]-{{Flag|Norgsveldet}}
|For
|
|
Line 931 ⟶ 941:
|
|
|Açach Quijada Alonso
|{{Flag|Peragen}}
|For
|
|
Line 945 ⟶ 955:
|Syphos Fagan
|[[File:GUSflag.png|frameless|20x20px]] [[Gusanaszna]]-{{Flag|South Hills}}
|For
|
|
Line 955 ⟶ 965:
|
|
|Dame Aveline-Leigh Pepperdew
|{{Flag|Great Morstaybishlia}}
|For
|
|
Line 967 ⟶ 977:
|
|
|Arkady Evgenysky
|{{Flag|Volkia}}
|For the contribution to the invention of an apparatus to produce extremely high pressures, and for the discoveries he made there within the field of high pressure physics
|
Line 981 ⟶ 991:
|
|
|For the contribution to the discovery of the Exclusion Principle, also called the Pauli principle
|
|
Line 993 ⟶ 1,003:
|
|
|For
|
|
Line 1,003 ⟶ 1,013:
|
|
|Mikheili Svetroviuli
|{{Flag|Salovia}}
|For
|
|
Line 1,022 ⟶ 1,032:
|
|-
|1941
|
|
Line 1,029 ⟶ 1,039:
|
|
|For
|
|
Line 1,053 ⟶ 1,063:
|
|
|For
|
|
Line 1,063 ⟶ 1,073:
|
|
|Fulvio Zezza
|{{flagicon image|Flag_of_Celanora.svg}}[[Celanora]]
|For the contribution to the discovery of the neutron
|
|
Line 1,089 ⟶ 1,099:
|
|
|For the creation of quantum mechanics, the application of which has, inter alia, led to the contribution to the discovery of the allotropic forms of hydrogen
|Elin Andersen
|[[File:CryriaFlag.png|frameless|25x25px]][[Cryria]]
Line 1,101 ⟶ 1,111:
|
|
|For
|
|
Line 1,113 ⟶ 1,123:
|Neal Solion
|[[File:Vakrestrender.png|frameless|20x20px]] [[Vakrestrender]]-{{Flag|South Hills}}
|For
|
|
Line 1,125 ⟶ 1,135:
|
|
|For
|
|
Line 1,137 ⟶ 1,147:
|
|
|For
|
|
Line 1,149 ⟶ 1,159:
|
|
|For
|
|
|
|-
| 1930
|
|
|
|
|Mahmoud Yafnaminejad
|{{Flag|Sayyed}}
|For their contribution to the discovery of the laws governing the impact of an electron upon an atom
|
|
|
|-
| 1929
|
|
|
|
|Juan Huerta Urbano
|{{Flag|Peragen}}
|For their discoveries and research in the field of X-ray spectroscopy
|
|
Line 1,185 ⟶ 1,195:
|
|
|For
|
|
|
|-
|1927
|
|
Line 1,197 ⟶ 1,207:
|
|
|For
|
|
Line 1,207 ⟶ 1,217:
|
|
|Tupuni Te Whakoa o te Moana
|{{Flag|The Oan Isles}}
|For
|
|
Line 1,219 ⟶ 1,229:
|
|
|Ludmilla Leibenberg
|{{Flag|Ethalria}}
|For the service he has rendered to precision measurements in physics by
|
|
|
|-
|1924
|
|
Line 1,233 ⟶ 1,243:
|
|
|For
|
|
|
|-
|1923
|
|
Line 1,245 ⟶ 1,255:
|
|
| For the services he rendered to the advancement of physics by
|
|
Line 1,257 ⟶ 1,267:
|
|
|For
|
|
Line 1,293 ⟶ 1,303:
|
|
|For
|
|
Line 1,303 ⟶ 1,313:
|
|
|Vittore Fiandaca
|{{flagicon image|Flag_of_Celanora.svg}}[[Celanora]]
|For
|
|
Line 1,316 ⟶ 1,326:
|
|
|Robert Arceyender{{Flag|South Hills}}
|For
|
|
Line 1,327 ⟶ 1,337:
|
|
|Inga Harbenholder
|{{Flag|Ethalria}}
|For
|
|
Line 1,341 ⟶ 1,351:
|
|
|For
|
|
Line 1,358 ⟶ 1,368:
|
|-
| 1914
|
|
Line 1,370 ⟶ 1,380:
|
|-
| 1914
|
|
|
|
|Royva Tulianile
|{{Flag|Vekaiyu}}
|For
|
|
Line 1,389 ⟶ 1,399:
|
|
|For
|
|
|
|-
| 1912
|
|
Line 1,401 ⟶ 1,411:
|
|
|For
|
|
Line 1,413 ⟶ 1,423:
|
|
| For
|
|
Line 1,423 ⟶ 1,433:
|
|
| Wilhelm Sanchez
|{{Flag|South Hills}}
| For
|
|
Line 1,437 ⟶ 1,447:
|
|
|For
|
|
|
|-
| 1908
|
|
|
|
|Ilyanov Ikastromistre
|{{Flag|Vekaiyu}}
|in recognition of the extraordinary service they rendered by their researches into the influence of magnetism upon radiation phenomena
|
Line 1,461 ⟶ 1,471:
|Alberto Gentile
Lorenza Rossi
| Kingdom of Arafors
|Contributed in the contribution to the discovery of new productive forms of [[W:Atomic theory|Atomic theory]]
|
Line 1,472 ⟶ 1,482:
|
|
|Imelda Krüwenholm
|{{Flag|Ethalria}}
|
|Ellie Makmur
|[[United Malordia|Dominion of Malordia]]
| For contributions to the discovery of [[W:Laplace transform|Real Variable Function Integral Transform]] to integral equations.
|-
|1905
Line 1,484 ⟶ 1,494:
|
|
|Payton Fidelis
|{{Flag|South Hills}}
|
|
Line 1,520 ⟶ 1,530:
|
|
|Baron Nikabar Tolstoy
|{{Flag|Great Morstaybishlia}}
|
|
Line 1,653 ⟶ 1,663:
|
|
| Ceolbeorn Eoformæreson
|{{flag|Tretrid}}
|For running an [[w:Michelson–Morley experiment|experiment]] that cast major doubt on the then-prevailing theory of the [[w:luminiferous aether|luminiferous aether]].
Line 1,776 ⟶ 1,786:
|
|
|Astan Soriv
|[[File:Auravas flag.png|frameless|25x25px]][[Auravas]]
|For their numerous contributions in the field of pure mathematics
|-
|1880
Line 2,308 ⟶ 2,318:
|
|-
|1836
|
|
Line 2,344 ⟶ 2,354:
|
|-
| 1833
|
|
Line 2,361 ⟶ 2,371:
|
|
|Kresser del Serrano
|{{Flag|South Hills}}
|
|
|