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Line 7: 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 ~~his~~ their representative, usually the [[Crown Prince of Packilvania]]) at a ceremony held at the Imogen Duhavid Hall (named after the first Packilvanian astronomer to suggest that the Urth orbited the Tep). The Prize grants 5 million [[Kirib]] (about 600 million [[Packilvanian dinar]]) as well as a golden medal to each recipient. Packilvanian awardees of the prize are usually inducted into a Packilvanian order of chivalry and in some cases they are inducted into the [[nobility of Packilvania]]. ==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 28 ⟶ 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 39 ⟶ 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]] \| \| Line 53 ⟶ 59: \|2020 \|Sonahed Wedan \|Contributions to the understanding of the identification of turbulent filaments in plasma in tokamak fusion reactors \| \| \| Line 65 ⟶ 71: \|2019 \|Sabna Wadmun \|Contributions to the theory of modified gravity \| \| \| Line 77 ⟶ 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 92 ⟶ 99: \| \| \|Ilya Yaroslavich \| \|{{Flag\|Volkia}} \| \|For decisive contributions to the LIGO detector and the observation of gravitational waves \| Line 116 ⟶ 123: \| \| \|Elam Vjinsenfjord \| \|{{Flag\|South Hills}} \| \|For the contribution to the discovery of neutrino oscillations, which shows that neutrinos have mass \| Line 128 ⟶ 135: \| \| \|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 152 ⟶ 159: \| \| \|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 164 ⟶ 172: \| \| \|Alexei Matveyovski \| \|{{Flag\|Volkia}} \| \|For the contribution to the discovery of the accelerating expansion of the Universe through observations of distant supernovae \| Line 208 ⟶ 216: \|- \|2007 \|Lord Hussein Amhadahan, VIscount of Holmandahan \| \| \| Line 224 ⟶ 232: \| \| \|Rilian Avastru \| \|{{Flag\|Vekaiyu}} \| \| For their contribution to the discovery of the blackbody form and anisotropy of the cosmic microwave background radiation \| Line 237 ⟶ 245: \| \|Lehamír Qáhovir \|~~[[File:New~~{{flagicon ~~Leganes flag~~image\|New_Leganes_flag.png~~\|frameless\|20x20px]]~~}} [[New Leganes]] \|For ~~his~~ their contribution to the quantum theory of optical coherence \| \| Line 304 ⟶ 312: \|- \|1999 \|Lord Helawad Fulmadeen, Earl of Sharwahad \| \| \| Line 316 ⟶ 324: \|- \|1998 \|Lord Mahmoud Insulmftahan, Earl of Palhawadoon \| \| \| Line 328 ⟶ 336: \|- \|1997 \|Sir Finhadeem Khamad \| \| \| Line 340 ⟶ 348: \|- \|1996 \|Sir Gurayeen Hilshodeen \| \| \| Line 352 ⟶ 360: \|- \|1995 \|Dame Jumhadina Rashahadun \| \| \| Line 364 ⟶ 372: \|- \|1994 \|Dame Kimrohed Thawahaned \| \| \| Line 376 ⟶ 384: \|- \|1993 \|Hilran Jumhadeen \| \| \| Line 388 ⟶ 396: \|- \| 1992 \|Prince Ermadeel \| \| \| \|Sir Rymos Ethilridor \| \| \|{{Flag\|Great Morstaybishlia}} \|For ~~his~~ their contribution to the invention and contribution to the development of particle detectors, in particular the multiwire proportional chamber \| \| Line 400 ⟶ 408: \|- \|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 412 ⟶ 420: \|- \| 1990 \|Princess Salrahanlea \| \| \| Line 424 ⟶ 432: \|- \|1989 \|Sir Irohed Mutuhan \| \| \| Line 436 ⟶ 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 448 ⟶ 456: \|- \|1987 \|Sir Olmada Heratan \| \| \| Line 460 ⟶ 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 \| ~~\| For his fundamental work in electron optics, and for the design of the first electron microscope~~ \| \| Line 472 ⟶ 480: \|- \|1985 \|Sir Prahaden Bulhameed \| \| \| Line 484 ⟶ 492: \|- \|1984 \|Tarol Amhodien \| \| \| Line 496 ⟶ 504: \|- \|1983 \|Habed Uhayed \| \| \| Line 502 ⟶ 510: \|Ludo Gyllir \|[[File:Laplisznaflag.jpg\|frameless\|20x20px]] [[Lapliszna]] \|For ~~his~~ their theoretical studies of the physical processes of importance to the structure and evolution of the stars \| \| Line 508 ⟶ 516: \|- \|1982 \|Pajeer Wasail \| \| \| \|Igor Vladislavovich \| \|{{Flag\|Volkia}} \| \| For their theory for critical phenomena in connection with phase transitions \| ~~\| For his theory for critical phenomena in connection with phase transitions~~ \| \| Line 520 ⟶ 528: \|- \|1981 \|Kemal Ubinad \| \| \| Line 532 ⟶ 540: \|- \|1980 \|Sokhadun Khanapahad \| \| \| Line 544 ⟶ 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 560 ⟶ 568: \| \| \|Alhadiyat Belapakahang \| \|[[File:United Malordia.png\|frameless\|20x20px]] [[United Malordia]] \| \|For ~~his~~ their basic contribution to the inventions and discoveries in the area of low-temperature physics \| \| Line 572 ⟶ 580: \| \| \|Pavla Sharevidze \| \|{{Flag\|Salovia}} \| \|For their fundamental theoretical investigations of the electronic structure of magnetic and disordered systems \| Line 598 ⟶ 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 ~~this~~t their connection \| \| Line 610 ⟶ 618: \|Eric Pamplemousse \|{{Flag\|Federation of the Southern Coast}} \|For their pioneering research in radio astrophysics: Ryle for ~~his~~ their observations and contribution to the inventions, in particular of the aperture synthesis technique, and Hewish for ~~his~~ their decisive role in the contribution to the discovery of pulsars \| \| Line 657 ⟶ 665: \| \| \|Rudrick Brün \| \|{{Flag\|Ethalria}} \| \|For ~~his~~ their contribution to the invention and contribution to the development of the holographic method \| \| Line 695 ⟶ 703: \| \| \|For ~~his~~ their contributions and discoveries concerning the classification of elementary particles and their interactions \| \| Line 705 ⟶ 713: \| \| \|Ekaterina Yastreshvili \| \|{{Flag\|Salovia}} \| \|For ~~his~~ their decisive contributions to elementary particle physics, in particular the contribution to the discovery of a large number of resonance states, made possible through ~~his~~ their contribution to the development of the technique of using hydrogen bubble chamber and data analysis \| \| Line 719 ⟶ 727: \|Katir Seyvanre \|[[File:Auravas flag.png\|frameless\|25x25px]][[Auravas]] \|For ~~his~~ their contributions to the theory of nuclear reactions, especially ~~his~~ their discoveries concerning the energy production in stars \| \| Line 729 ⟶ 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 \| Line 741 ⟶ 749: \| \| \|Indina Syavala \| \|{{Flag\|Vekaiyu}} \| \|For their fundamental work in quantum electrodynamics (QED), with deep-ploughing consequences for the physics of elementary particles \| Line 767 ⟶ 775: \| \| \|For ~~his~~ their contributions to the theory of the atomic nucleus and the elementary particles, particularly through the contribution to the discovery and application of fundamental symmetry principles \| \| Line 773 ⟶ 781: \|- \|1962 \|Waldam Yalmirun \| \| \| Line 779 ⟶ 787: \|Dirk van der Venter \|[[File:Hvaloasznaflag.png\|frameless\|20x20px]] [[Hvaloaszna]] \|For ~~his~~ their pioneering theories for condensed matter, especially liquid helium \|Evert Ossler \|[[File:CryriaFlag.png\|frameless\|25x25px]][[Cryria]] Line 785 ⟶ 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 \| \| ~~\| For his pioneering studies of electron scattering in atomic nuclei and for his thereby achieved discoveries concerning the structure of the nucleons~~ \| \| Line 797 ⟶ 805: \|- \|1960 \|Shabahan Olhumad \| \|Bulhalil Porhamoon \| \| \| \| Line 809 ⟶ 817: \|- \|1959 \|Solhadek Khurnidek \| \|Vrahadina Malwadeen \| \| \| \|Demetrio Bramante Line 821 ⟶ 829: \|- \|1958 \|Dulhameen Rumjan \| \|Kharmadina Luhandeen \| \| \| \| Line 833 ⟶ 841: \|- \|1957 \|Sehabin Ulmahadeen \| \|Contributions to understanding the charge of kaon particles \| \|Inhadeel Jumhuriya \| \| \| Line 845 ⟶ 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 857 ⟶ 865: \|- \|1955 \|Dulriamin Shabal-Gurayeen \| \|Rubadeen Khalmanion \| \| \| \|For their discoveries concerning the fine structure of the hydrogen spectrum \| \| ~~\|For his discoveries concerning the fine structure of the hydrogen spectrum~~ \| \| Line 869 ⟶ 877: \|- \|1954 \|Manhumiyad Exaridan \| \|Axaniya Warmidan \| \| \| \|For their fundamental research in quantum mechanics, especially for their statistical interpretation of the wavefunction \| \| ~~\|For his fundamental research in quantum mechanics, especially for his statistical interpretation of the wavefunction~~ \| \| Line 881 ⟶ 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 \| \| \| ~~\|For his demonstration of the phase contrast method, especially for his contribution to the invention of the phase contrast microscope~~ \| \| Line 893 ⟶ 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 907 ⟶ 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 923 ⟶ 931: \|Lysius Jørgensen \|[[File:Syrtænzna.png\|frameless\|20x20px]][[Syrtænzna]]-{{Flag\|Norgsveldet}} \|For ~~his~~ their contribution to the development of the photographic method of studying nuclear processes and ~~his~~ their discoveries regarding mesons made with ~~this~~t their method \| \| Line 935 ⟶ 943: \|Açach Quijada Alonso \|{{Flag\|Peragen}} \|For ~~his~~ their prediction of the existence of mesons on the basis of theoretical work on nuclear forces \| \| Line 947 ⟶ 955: \|Syphos Fagan \|[[File:GUSflag.png\|frameless\|20x20px]] [[Gusanaszna]]-{{Flag\|South Hills}} \|For ~~his~~ their contribution to the development of the Wilson cloud chamber method, and ~~his~~ their discoveries therewith in the fields of nuclear physics and cosmic radiation \| \| Line 957 ⟶ 965: \| \| \|Dame Aveline-Leigh Pepperdew \| \|{{Flag\|Great Morstaybishlia}} \|For ~~his~~ their investigations of the physics of the upper atmosphere especially for the contribution to the discovery of the so-called Appleton layer \| \| Line 969 ⟶ 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 995 ⟶ 1,003: \| \| \|For ~~his~~ their resonance method for recording the magnetic properties of atomic nuclei \| \| Line 1,005 ⟶ 1,013: \| \| \|Mikheili Svetroviuli \| \|{{Flag\|Salovia}} \| \|For ~~his~~ their contribution to the contribution to the development of the molecular ray method and ~~his~~ their contribution to the discovery of the magnetic moment of the proton \| \| Line 1,031 ⟶ 1,039: \| \| \|For ~~his~~ their demonstrations of the existence of new radioactive elements produced by neutron irradiation, and for ~~his~~ their related contribution to the discovery of nuclear reactions brought about by slow neutrons \| \| Line 1,055 ⟶ 1,063: \| \| \|For ~~his~~ their contribution to the discovery of cosmic radiation \| \| Line 1,103 ⟶ 1,111: \| \| \|For ~~his~~ their work on the scattering of light and for the contribution to the discovery of the effect named after him \| \| Line 1,115 ⟶ 1,123: \|Neal Solion \|[[File:Vakrestrender.png\|frameless\|20x20px]] [[Vakrestrender]]-{{Flag\|South Hills}} \|For ~~his~~ their contribution to the discovery of the wave nature of electrons \| \| Line 1,127 ⟶ 1,135: \| \| \|For ~~his~~ their work on the thermionic phenomenon and especially for the contribution to the discovery of the law named after him \| \| Line 1,139 ⟶ 1,147: \| \| \|For ~~his~~ their contribution to the discovery of the effect named after him \| \| Line 1,151 ⟶ 1,159: \| \| \|For ~~his~~ their work on the discontinuous structure of matter, and especially for ~~his~~ their contribution to the discovery of sedimentation equilibrium \| \| Line 1,161 ⟶ 1,169: \| \| \|Mahmoud Yafnaminejad \| \|{{Flag\|Sayyed}} \| \|For their contribution to the discovery of the laws governing the impact of an electron upon an atom \| Line 1,175 ⟶ 1,183: \|Juan Huerta Urbano \|{{Flag\|Peragen}} \|For ~~his~~ their discoveries and research in the field of X-ray spectroscopy \| \| Line 1,187 ⟶ 1,195: \| \| \|For ~~his~~ their work on the elementary charge of electricity and on the photoelectric effect \| \| Line 1,199 ⟶ 1,207: \| \| \|For ~~his~~ their services in the investigation of the structure of atoms and of the radiation emanating from them \| \| Line 1,211 ⟶ 1,219: \|Tupuni Te Whakoa o te Moana \|{{Flag\|The Oan Isles}} \|For ~~his~~ their services to theoretical physics, and especially for ~~his~~ their contribution to the discovery of the law of the photoelectric effect \| \| Line 1,221 ⟶ 1,229: \| \| \|Ludmilla Leibenberg \| \|{{Flag\|Ethalria}} \| \|For the service he has rendered to precision measurements in physics by ~~his~~ their contribution to the discovery of anomalies in nickel-steel alloys \| \| Line 1,235 ⟶ 1,243: \| \| \|For ~~his~~ their contribution to the discovery of the Doppler effect in canal rays and the splitting of spectral lines in electric fields \| \| Line 1,247 ⟶ 1,255: \| \| \| For the services he rendered to the advancement of physics by ~~his~~ their contribution to the discovery of energy quanta \| \| Line 1,259 ⟶ 1,267: \| \| \|For ~~his~~ their contribution to the discovery of the characteristic Röntgen radiation of the elements', another important step in the contribution to the development of X-ray spectroscopy \| \| Line 1,295 ⟶ 1,303: \| \| \|For ~~his~~ their contribution to the discovery of the diffraction of X-rays by crystals, an important step in the contribution to the development of X-ray spectroscopy. \| \| Line 1,307 ⟶ 1,315: \|Vittore Fiandaca \|{{flagicon image\|Flag_of_Celanora.svg}}[[Celanora]] \|For ~~his~~ their investigations on the properties of matter at low temperatures which led, inter alia, to the production of liquid helium \| \| Line 1,318 ⟶ 1,326: \| \| \|Robert Arceyender{{Flag\|South Hills}} \| \|For ~~his~~ their contribution to the invention of automatic valves designed to be used in combination with gas accumulators in lighthouses and buoys \| \| Line 1,329 ⟶ 1,337: \| \| \|Inga Harbenholder \| \|{{Flag\|Ethalria}} \| \|For ~~his~~ their discoveries regarding the laws governing the radiation of heat \| \| Line 1,343 ⟶ 1,351: \| \| \|For ~~his~~ their work on the equation of state for gases and liquids \| \| Line 1,377 ⟶ 1,385: \| \| \|Royva Tulianile \| \|{{Flag\|Vekaiyu}} \| \|For ~~his~~ their method of reproducing colours photographically based on the phenomenon of interference \| \| Line 1,391 ⟶ 1,399: \| \| \|For ~~his~~ their optical precision instruments and the spectroscopic and metrological investigations carried out with their aid \| \| Line 1,403 ⟶ 1,411: \| \| \|For ~~his~~ their theoretical and experimental investigations on the conduction of electricity by gases \| \| Line 1,415 ⟶ 1,423: \| \| \| For ~~his~~ their work on cathode rays \| \| Line 1,425 ⟶ 1,433: \| \| \| Wilhelm Sanchez \| \|{{Flag\|South Hills}} \| \| For ~~his~~ their investigations of the densities of the most important gases and for ~~his~~ their contribution to the discovery of argon in connection with these studies \| \| Line 1,439 ⟶ 1,447: \| \| \|For ~~his~~ their contribution to the discovery of spontaneous radioactivity \| \| Line 1,449 ⟶ 1,457: \| \| \|Ilyanov Ikastromistre \| \|{{Flag\|Vekaiyu}} \| \|in recognition of the extraordinary service they rendered by their researches into the influence of magnetism upon radiation phenomena \| Line 1,474 ⟶ 1,482: \| \| \|Imelda Krüwenholm \| \|{{Flag\|Ethalria}} \| \| \|Ellie Makmur Line 1,486 ⟶ 1,494: \| \| \|Payton Fidelis \| \|{{Flag\|South Hills}} \| \| \| Line 1,522 ⟶ 1,530: \| \| \|Baron Nikabar Tolstoy \| \|{{Flag\|Great Morstaybishlia}} \| Line 1,780 ⟶ 1,788: \|Astan Soriv \|[[File:Auravas flag.png\|frameless\|25x25px]][[Auravas]] \|For ~~his~~ their numerous contributions in the field of pure mathematics \|- \|1880 Line 2,363 ⟶ 2,371: \| \| \|Kresser del Serrano \| \|{{Flag\|South Hills}} \| \| \|