gravitational shielding
{{Short description|Hypothetical shielding of an object from gravity}}
The term gravitational shielding refers to a hypothetical process of shielding an object from the influence of a gravitational field.{{cite journal | author=J. Weber | title=Gravitational Shielding and Absorption | journal=Physical Review | publisher=American Physical Society (APS) | volume=146 | date=1966-06-24 | doi=10.1103/PhysRev.146.935 | page=935 }} Such processes, if they existed, would have the effect of reducing the weight of an object. The shape of the shielded region would be similar to a shadow from the gravitational shield. For example, the shape of the shielded region above a disk would be conical. The height of the cone's apex above the disk would vary directly with the height of the shielding disk above the Earth.{{cite journal | last=Unnikrishnan | first=C.S. | title=Does a superconductor shield gravity? | journal=Physica C: Superconductivity | publisher=Elsevier BV | volume=266 | issue=1–2 | year=1996 | doi=10.1016/0921-4534(96)00340-1 | pages=133–137| bibcode=1996PhyC..266..133U }} Experimental evidence to date indicates that no such effect exists. Gravitational shielding is considered to be a violation of the equivalence principle and therefore inconsistent with both Newtonian theory and general relativity.{{cite book |doi=10.1007/978-3-540-34377-6_2 |chapter=General Theory of Relativity: Will It Survive the Next Decade? |title=Lasers, Clocks and Drag-Free Control |series=Astrophysics and Space Science Library |year=2008 |last1=Bertolami |first1=Orfeu |last2=Páramos |first2=Jorge |last3=Turyshev |first3=Slava G. |volume=349 |pages=27–74 |isbn=978-3-540-34376-9 |s2cid=12079261 }}
The concept of gravity shielding is a common concept in science fiction literature, especially for space travel. One of the first and best known examples is the fictional gravity shielding substance cavorite that appears in H. G. Wells' classic 1901 novel The First Men in the Moon. Wells was promptly criticized for using it by Jules Verne.{{cite book |last1=Giblin |first1=James |title=The Century that was: Reflections on the Last One Hundred Years |date=2000 |publisher=Simon and Schuster |isbn=978-0-689-82281-0 |page=8 |url=https://books.google.com/books?id=uJ-y_I4r1twC&pg=PA8 |quote=I sent my travelers to the moon with gunpowder, something one sees every day. Where is Monsieur Wells' 'Cavorite'? Let him show it to me! }}
Tests of the equivalence principle
{{As of|2008}}, no experiment was successful in detecting positive shielding results. To quantify the amount of shielding, at the beginning of 20th century Quirino Majorana{{cite journal | last=Majorana | first=Q. | title=XLVIII. On gravitation. Theoretical and experimental researches | journal=The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science | publisher=Informa UK Limited | volume=39 | issue=233 | year=1920 | doi=10.1080/14786440508636063 | pages=488–504}} suggested an extinction coefficient h that modifies Newton's gravitational force law as follows:
:
The best laboratory measurements have established an upper bound limit for shielding of 4.3×10−15 m2/kg.{{cite journal | last1=Unnikrishnan | first1=C. S. | last2=Gillies | first2=G. T. | title=New limits on the gravitational Majorana screening from the Zürich G experiment | journal=Physical Review D | publisher=American Physical Society (APS) | volume=61 | issue=10 | date=2000-04-13 | doi=10.1103/physrevd.61.101101 | page=101101(R)| bibcode=2000PhRvD..61j1101U }}
The best estimate based on the most accurate gravity anomaly data during the 1997 solar eclipse has provided
a new constraint on the shielding parameter 6×10−19 m2/kg.{{cite journal | last1=Yang | first1=Xin-She | last2=Wang | first2=Qian-Shen |title=Gravity Anomaly During the Mohe Total Solar Eclipse and New Constraint on Gravitational Shielding Parameter| journal=Astrophysics and Space Science | publisher=Springer Science and Business Media LLC | volume=282 | issue=1 | year=2002 | doi=10.1023/a:1021119023985 | pages=245–253| bibcode=2002Ap&SS.282..245Y | s2cid=118497439 }} However, astronomical observations impose much more stringent limits. Based on lunar observations available in 1908, Poincaré{{cite journal |last1=Poincaré |first1=Henri |title=La dynamique de l'électron |trans-title=The dynamics of the electron |language=fr |journal=Revue générale des sciences pures et appliquées |volume=19 |year=1908 |pages=386–402 |url=https://henripoincarepapers.univ-lorraine.fr/chp/hp-pdf/hp1908rg.pdf }} established that h can be no greater than 10−18 m2/kg. Subsequently, this bound has been greatly improved. Eckhardt{{cite journal | last=Eckhardt | first=Donald H. | title=Gravitational shielding | journal=Physical Review D | publisher=American Physical Society (APS) | volume=42 | issue=6 | date=1990-09-15 | doi=10.1103/physrevd.42.2144 | pages=2144–2145| pmid=10013064 | bibcode=1990PhRvD..42.2144E }} showed that lunar ranging data implies an upper bound of 10−22 m2/kg, and Williams, et al.,{{cite journal |last1=Williams |first1=James G. |last2=Turyshev |first2=Slava G. |last3=Boggs |first3=Dale H. |title=Lunar laser ranging tests of the equivalence principle with the earth and moon |journal=International Journal of Modern Physics D |date=1 July 2009 |volume=18 |issue=7 |pages=1129–1175 |doi=10.1142/S021827180901500X |arxiv=gr-qc/0507083 |bibcode=2009IJMPD..18.1129W |s2cid=119086896 }} have improved this to h = (3 ± 5)×10−22 m2/kg. Note that the value is smaller than the uncertainty. The consequence of the negative results of those experiments (which are in good agreement with the predictions of general relativity) is, that every theory which contains shielding effects like Le Sage's theory of gravitation, must reduce those effects to an undetectable level. For a review of the current experimental limits on possible gravitational shielding, see the survey article by Bertolami, et al. Also, for a discussion of recent observations during solar eclipses, see the paper by Unnikrishnan et al.{{cite journal |last1=Unnikrishnan |first1=C. S. |last2=Mohapatra |first2=A. K. |last3=Gillies |first3=G. T. |title=Anomalous gravity data during the 1997 total solar eclipse do not support the hypothesis of gravitational shielding |journal=Physical Review D |date=12 February 2001 |volume=63 |issue=6 |page=062002 |doi=10.1103/PhysRevD.63.062002 |bibcode=2001PhRvD..63f2002U }}
Majorana's experiments and Russell's criticism
Some shielding experiments were conducted in the early 20th century by Quirino Majorana.{{cite book |last1=Martins |first1=Roberto de Andrade |chapter=Majorana's experiments on gravitational absorption |pages=219–238 |editor1-last=Edwards |editor1-first=Matthew R |title=Pushing gravity: new perspectives on Le Sage's theory of gravitation |date=2002 |publisher=Apeiron |isbn=978-1-4237-1624-2 |oclc=61151058 }} Majorana claimed to have measured positive shielding effects. Henry Norris Russell's analysis of the tidal forces showed that Majorana's positive results had nothing to do with gravitational shielding.{{cite journal |last1=Russell |first1=Henry Norris |title=On Majorana's Theory of Gravitation |journal=The Astrophysical Journal |date=December 1921 |volume=54 |page=334 |doi=10.1086/142649 |bibcode=1921ApJ....54..334R |doi-access=free }} To bring Majorana's experiments following the equivalence principle of General Relativity he proposed a model, in which the mass of a body is diminished by the proximity of another body, but he denied any connection between gravitational shielding and his proposal of mass variation. For another explanation of Majorana's experiments, see Coïsson et al.{{cite journal |last1=Coïsson |first1=R. |last2=Mambriani |first2=G. |last3=Podini |first3=P. |title=A new interpretation of Quirino Majorana's experiments on gravitation and a proposal for testing his results |journal=Nuovo Cimento B |date=April 2002 |volume=117 |issue=4 |page=469 |bibcode=2002NCimB.117..469C }} But Majorana's results could not be confirmed up to this day (see the section above) and Russell's mass variation theory, although meant as a modification of general relativity, is inconsistent with standard physics as well.
Minority views
The consensus view of the scientific community is that gravitational shielding does not exist, but there have been occasional investigations into this topic, such as the 1999 NASA-funded paper that reported negative results.{{cite journal|author=N. Li |author2=D. Noever |author3=T. Robertson |author4=R. Koczor |author5=W. Brantley |title=Static Test for a Gravitational Force Coupled to Type II YBCO Superconductors|journal=Physica C|volume=281|issue=2–3|date=August 1997|pages=260–267|bibcode = 1997PhyC..281..260L |doi = 10.1016/S0921-4534(97)01462-7 }}{{cite book |doi=10.2514/6.1999-2147 |chapter=Fabrication of large bulk ceramic superconductor disks for gravity modification experiments and performance of YBCO disks under EM field excitation |title=35th Joint Propulsion Conference and Exhibit |year=1999 |last1=Koczor |first1=Ronald |last2=Noever |first2=David }}[http://www.space.com/businesstechnology/technology/anti_grav_000928.html Space.com on NASA funding] {{webarchive |url=https://web.archive.org/web/20060210065536/http://www.space.com/businesstechnology/technology/anti_grav_000928.html |date=February 10, 2006 }} Eugene Podkletnov claimed in two papers, one of which he later withdrew, that objects held above a magnetically-levitated, superconducting, rotating disc underwent a reduction of between 0.5 and 2% in weight.{{cite journal|last1=Podkletnov|first1=E|last2=Nieminen|first2=R |title=A possibility of gravitational force shielding by bulk YBa2Cu3O7−x superconductor|journal=Physica C |volume=203|issue=3–4|date=December 10, 1992|pages=441–444|bibcode = 1992PhyC..203..441P |doi = 10.1016/0921-4534(92)90055-H }} Theoreticians have attempted to reconcile Podkletnov's claims with quantum gravity theory.{{cite journal | last=Modanese | first=G | title=Theoretical analysis of a reported weak-gravitational-shielding effect | journal=Europhysics Letters | volume=35 | issue=6 | date=1996-08-20 | doi=10.1209/epl/i1996-00129-8 | pages=413–418|arxiv=hep-th/9505094| bibcode=1996EL.....35..413M | s2cid=10365722 }}{{cite journal | last=Ning | first=Wu | title=Gravitational Shielding Effect in Gauge Theory of Gravity | journal=Communications in Theoretical Physics | volume=41 | issue=4 | date=2004-04-15 | doi=10.1088/0253-6102/41/4/567 | pages=567–572|arxiv=hep-th/0307225| bibcode=2004CoTPh..41..567W | s2cid=119407101 }} In 2006, a research group funded by ESA claimed to have created a similar device that demonstrated positive results for the production of gravitomagnetism, although it produced only 0.0001 g.{{cite web |title=Toward a new test of general relativity? |url=https://gsp.esa.int/article-view/-/wcl/Fd1ZihgaGrwB/10192/towards-a-new-test-of-general-relativity- |url-status=dead |archive-url=https://web.archive.org/web/20171228000202/https://gsp.esa.int/article-view/-/wcl/Fd1ZihgaGrwB/10192/towards-a-new-test-of-general-relativity- |archive-date=December 28, 2017 |access-date=2013-08-06 |publisher=Esa.int}}
Electrets
In his 1976 paper, Electromagnetism and Gravitation, physicist Edward Teller discussed experimentation with electrets, or materials with a permanent electric dipole moment, near its transition point to discover the transition between dipole states.{{cite journal |last1=Teller |first1=Edward |title=Electromagnetism and gravitation |journal=Proceedings of the National Academy of Sciences |date=1 July 1977 |volume=74 |issue=7 |pages=2664–2666 |doi=10.1073/pnas.74.7.2664 |pmid=16592415 |pmc=431235 |bibcode=1977PNAS...74.2664T |doi-access=free }} On July 9, 1997, William Rhodes, an inventor, made a posting on Usenet concerning a discovery of an antigravity effect related to electrets.William Rhodes Usenet posting https://groups.google.com/forum/#!search/rhodes$20%22gravity$20shield%22/sci.systems/3_11GyUQYUw/rc1Q5O_2EVQJ Also, Dr. Martin Tajmar, a physicist and professor for Space Systems at the Dresden University of Technology has written a paper on propellantless propulsion and makes numerous references to electrets.{{cite conference |last1=Tajmar |first1=M |title=Propellantless Propulsion with Negative Matter Generated by Electric Charges |conference=49th AIAA/ASME/SAE/ASEE Joint Propulsion Conference |date=July 2013 |location=San Jose, CA |url=https://tu-dresden.de/ing/maschinenwesen/ilr/rfs/ressourcen/dateien/forschung/folder-2007-08-21-5231434330/ag_raumfahrtantriebe/JPC---Propellantless-Propulsion-with-Negative-Matter-Generated-by-Electric-Charges.pdf }} A patent for a gravitational attenuating material that utilizes an organic based material was made by inventor Ronald J. Kita.Gravitational Attenuating Material Ronald J. Kita https://pdfpiw.uspto.gov/.piw?PageNum=0&docid=08901943&IDKey=74419F9AD76C%0D%0A&HomeUrl=http%3A%2F%2Fpatft.uspto.gov%2Fnetacgi%2Fnph-Parser%3FSect1%3DPTO2%2526Sect2%3DHITOFF%2526p%3D1%2526u%3D%25252Fnetahtml%25252FPTO%25252Fsearch-bool.html%2526r%3D1%2526f%3DG%2526l%3D50%2526co1%3DAND%2526d%3DPTXT%2526s1%3D%252522kita%252Bronald%252522%2526OS%3D%252522kita%252Bronald%252522%2526RS%3D%252522kita%252Bronald%252522Gravitational attenuating material (Patent) https://pubchem.ncbi.nlm.nih.gov/patent/US-8901943-B1Gravitational attenuating material Google Patents https://patents.google.com/patent/US8901943B1/en
Einstein–Cartan theory
See also
References
{{reflist|2}}
External links
- {{cite book |last1=Martins |first1=Roberto de Andrade |chapter=The Search for Gravitational Absorption in the Early 20th Century |pages=3–44 |chapter-url=https://books.google.com/books?id=5mGZno8CvnQC&pg=PA3 |editor1-last=Goenner |editor1-first=Hubert |editor2-last=Renn |editor2-first=Jürgen |editor3-last=Ritter |editor3-first=Jim |editor4-last=Sauer |editor4-first=Tilman |title=The Expanding Worlds of General Relativity |date=1 December 1998 |publisher=Springer Science & Business Media |isbn=978-0-8176-4060-6 }}
{{DEFAULTSORT:Gravitational Shielding}}