Research History
註:粵語譯文以本字為主:徂=唨/咗、匸=喺、己=嘅、尐=啲、也=嘢、毋=唔、嚮=响、臱=邊、道=度、 迡=呢、箇=嗰、蒞/䇐=嚟、怎=點、恁=咁/噉、地=哋、重=仲。
Research history in theoretical physics:
理論物理研究史:
29.10.2003 (cloud in phase space): Came up with the “similar worlds interpretation” (SWI).
建立徂「相似世界詮釋」。
03.06.2004 (minimal mass for black holes with Hawking radiation): Found that the evaporation process of black holes should leave some remnant.
發現徂黑洞應有最低質量。蒸發之後應有黑洞殘留。
22.07.2004 (solution of the Einstein-Rose-Podolski paradox): Solved the Einstein Rose Podolski paradox by using the main concepts of SWI, namely the equivalence group of spacetimes and the fuzzy observer principle.
用徂「相似世界詮釋」己「時空同等組」解決「愛波羅佯謬」。
22.10.2004 (world of experience): Established the abstract notion of a “world of experience”, analogious to Popper’s world of culture.
建立徂「經驗世界」己哲學理念,係類似於哲學家卡爾·波普爾「三世界論」當中己「文化世界」。
26.10.2004 (world of relations): Established the notion that relations between objects in the physical world are as real as objects in the platonic world. Therefore they can be a basis for consciousness.
建立徂「關係世界」己哲學理念。
23.02.2005 (theory on qualia): Established a theory of qualia based on the notion of sets of experience.
用徂「經驗集合」己理念建立一個對「感質」己解釋方案。
03.08.2005 (gravity shields itself away): Found that event horizons protect the universe from the infinities which arise in point particle theories.
發現徂事件視界完全可以避免點狀粒子理論當中己各種無限數。
10.8.2005 (elementary spaces and gravity; background independence): By thinking about analogies between black holes and elementary particles I layed the foundation of space particle dualism theory. A theory which is background independent and explains gravity by density differences in an ocean of space atoms.
通過思考黑洞與基本粒子己類推建立徂「間粒二元論」,一個不依賴背景時空己理論,係可以用基本空間密度不一蒞解釋引力。
22.08.2005 (complex elementary spaces and dark matter): In order to establish some connection to Penrose’s twistor theory, I turned elementary spaces into complex manifolds and analysed their structure. That led up to the prediction of dark matter. However, due to an error in the analysis I came up with the prediction of 75% dark matter. Many years later I corrected this to the value of 60% (near the big bang).
為徂將本理論與彭羅斯己「扭量論」聯繫起身我將本理論中己基本空間(實數球面)換成複數己超球面,並且分析徂佢地己基本結構,進而預言徂暗物質。不過當時因為一個錯誤所以預言到75% 己暗物質。好幾年之後重新分析時先發現原來係60%(宇宙大爆炸時己值)。
30.08.2005 (impulse and spin on the Riemann sphere): Tried to figure out how space particle dualism theory could, similar to twistor theory, represent both relativistic impulse and quantum mechanical spin using the same entity: a single elementary space.
初步考慮徂怎樣用本理論己基本空間蒞描述粒子己衝量同埋自旋。
06.09.2005 (complex elementary spaces and twistor theory)
同上。
22.09.2005 (broken dimensionality): Established the notion or broken or granular dimensionality.
建立徂非全數維數己概念。
04.10.2005 (holographic principle): Made a loose conection between elementary spaces and the holographic principle.
初步將基本空間己概念與全息原理聯想徂起身。
11.11.2005 (cross wiring): Proposed that the cross wiring in the brain might be aiming to enlarge superpositions.
提出徂腦袋中神經元兩邊交叉係為徂放大疊加態。
20.11.2005 (mass out of light idea): Proposed that pure light might form black holes that could act like particles. However, no certain masses could be derived from this proposal.
提出徂純粹己光(光子)可以積累成黑洞,進而變成類似一個有質量己粒子。不過迡個方案冇能夠提供確切己粒子質量值。
22.12.2005 (SU(2) + U(1)): Made a connection between the dimensionality of space in space particle dualism theory and the symmetry groups in particle physics.
將本理論己空間維數同標準粒子模型己對稱組聯繫徂起身。
01.02.2006 (SU(3)): Suggested that SU(3) could arrise from the almost 3 dimensional structure of space on the macroscopic scale.
提出徂對稱組SU(3) 或者就係對應於補綴空間己宏觀結構。
28.02.2006 (theory on positive and negative relations): Suggested that the feeling of sadness can be represented by conscious sets which are poor in relations.
提出徂負面情緒可以用關係不豐富己意識集合代表(屬於意識形而上學)。
07.11.2006 (link to the wave function): Turned space particle dualism into a real approach for a quantum theory of gravity by showing that the similar worlds interpretation (the quantum theory part) and space particle dualism theory (the gravity part) are complementary parts of one unifying theory.
發現徂「相似世界詮釋」(量子部分)與「間粒二元論」(引力部分)係互補己,同一個理論相互依賴己毋同部分,從此而令「間粒二元論」變成一個真正己量子引力方案。
15.10.2006 (representation of spin in space particle dualism theory): Found that SPD could explain the strange properties of quantum spin.
發現徂間粒二元論可以解釋量子自旋己奇異特徵。
08.05.2012 (planes of simultaneity): Found a proper way to deal with light cones in a quantum mechanical universe.
搵到辦法分析量子宇宙中己意識觀察者光椎。從此而擺脫徂多年己困惑。
19.05.2013 (first formulation of the entropic expansion hypothesis): Found that the density of space doesn’t change during the expansion of the universe. I also found that gravity is only acting locally, not globally. Thus the universe can not collapse. This made the expansion of space rather puzzeling. Considerations on the arrow of time led me to suggest that it is entropy itself which forces the universe to expand.
發現徂空間原子己密度並毋會隨住宇宙己膨脹降低,而且引力只可以起作用於局部,毋可以作用於宇宙己整體。所以宇宙毋可以坍塌。迡個令到佢己膨脹顯得更加神秘。之後考慮時間箭頭己問題令到我提出係熵增導致宇宙膨脹同埋膨脹加速。
24.08.2013 (wrong notion of many observers/entanglement restricting reality): The neural activity during dreaming and wakefulness is very similar. This misled me into taking the analogy too far and assuming that having many participants is all what restricts our reality.
錯誤地以為只係觀察者意願不一令到現實穩定(事實上係測量頻率、熵、潛意識等因素導致迡種穩定)。
17.09.2013 (horizon as a membrane): Because elementary spaces were of the same size as black holes at that time, I tended to take the analogy between black holes and elementary particles too far, which misled me into proposing that black holes have membrane-like event horizons.
由於當時本理論己基本空間大小上與黑洞一致(公式一樣),所以我當時將黑洞同基本粒子之間己類推扯得太遠,故而提出黑洞己事件視界係隔膜狀己。
28.11.2013 (errorous first calculation on the entropic expansion hypothesis): My first calculation on the entropic expansion hypothesis was errorous but by some coincidence appeared to roughly confirm the hypothesis.
第一次通過計算審查熵性膨脹原理己時候有計錯,但由於某一些巧合計算結果顯得確認我己假設。
28.02.2014 (revised calculation on the entropic expansion hypothesis): After finding the mistake I made a second fearful attempt to calculate the entropy increase and its relation to the expansion rate. To my relief the result was confirming the hypothesis.
發現徂錯誤之後我重新計算徂熵增與膨脹速度己關係。計算結果確認徂我己假設。
28.02.2014 (no alien prediction): Wiegner thought the orthodox interpretation of quantum mechanics could easily lead to solipsism. On earth solipsism is prevented by entanglement. However, entanglement can’t prevent solipsism on a cosmological scale.
維格納以為量子力學己正宗詮釋或者會引起唯我論。匸地球上係量子糾纏避免唯我論,但匸宇宙層面係避免毋到己。
20.03.2014 (calculated how gravity shields itself away in point particle theories): Calculated what mass we get when we treat an electron as an electric charge which is compressed till an event horizon forms out. The result was a mass near the Planck mass.
計算徂電子係一個壓縮到成黑洞己電荷己話會得出乜也質量。計算結果接近普朗克質量。
16.07.2014 (lepton conglomerate: mass increase due to claustrophobic pressure): Formulated the hypothesis that the muon and the tauon are the result of pressing electrons or electrons and positrons onto one single elementary space. That could explain why muons and tauons do have the exact same properties as electrons but just higher mass. This is aiming to solve the mystery of the three generations in particle physics.
提出徂緲子同陶子係多個電子或者電子同反電子被壓迫上同一個基本空間(超球面)。迡個就可以解釋怎解緲子同質子己所有特徵係一樣,只係質量高尐。迡種猜測旨在解粒子物理學三輩份之謎。
10.03.2015 (entropy equals number of worlds): Found that the entropy of the universe equals the logarithm of the number of words in the similar worlds approach.
發現徂宇宙己熵等於「相似世界詮釋」當中同等時空己數量己對數。
01.05.2015: Solved apparent paradox about the impulse of particles in space particle dualism.
解決徂基本空間半徑越短繞住佢轉己粒子反而能量越低己悖論。答案係迡種轉動淨係產生量子波涵數,係幾何上己運動,而毋係固有能量己物理運動。
08.05.2015 (entropy depends on measurement problem): The exact value of entropy depends on how the measurement problem is solved.
發現徂熵己精準數值取決於我地怎樣解決測量問題(取決於波涵數匸臱個層面坍縮)。
10.05.2015: Considered the electron’s mass to be the real Planck-mass. Later rejected.
考慮過電子己質量先至係真正己普朗克質量己假設。之後又排除徂迡個可能。
23.05.2015 (space made of horizons argument): If space is made of horizon surfaces, then entropy increase must expand space. This scheme of explanation had to be dismissed later when it turned out that the analogy between black holes and elementary particles can’t be taken too far (elementary spaces are bigger).
當時基於黑洞與粒子己類推認為可以解釋怎解熵增導致空間膨脹。後屘先發現迡個類推事實上毋成立。基本空間與黑洞有共同之處,但並毋同等(基本空間更大)。
10.06.2015: Hypothesed that material appearing at the cosmologic event horizon could level out the loss of energy through red shift during the expansion. Later rejected.
提出徂宇宙般事件視界出現己物質彌補宇宙通過紅移失去己能量。之後又排除徂迡個可能。
22.07.2015 (last observer paradox): Speculated about what would happen if only one observer was left in the universe.
對於宇宙只剩低一個意識觀察者己情況做出徂初步己猜測。
07.08.2015 (positron shields half away): Lepton conglomerate: The positron shields exactly half of the charge of the second electron away, so only half energy required. But the half of the planck-energy is still to much.
發現徂兩個電子上同一個基本空間己話反電子可以將需要己能量減少到一般,但由於迡個能量已經達到普朗克能量,所以一半都係太多。
08.08.2015 (wrongly suggested the last observer would dematerialize): Reached the wrong conclusion that a last observer would be unable to keep the world in a stable quantum state and just cease to exist.
錯誤地提出徂「最後意識觀察者」無法維持一個穩定己量子狀態。
18.08.2015: The particles don’t need to come very close, because they have uncertainty in position. Their wave length however seems not to be a good threshold. Then I used the typical electron radius. Later I found that the true radius of elementary spaces is very close to this typical electron radius (the reason for this is still unknown).
發現徂兩個電子上同一個空間係毋需要被壓得好近,因為位置不確定性可以令佢地更容易合併。但電子己波長又毋夠短。之後我用徂「典型電子半徑」。後屘我發現徂基本空間己真實大小好接近典型電子半徑(未知其中己原因)。
19.08.2015 (mass increase due to electromagnetic repulsion): Calculated mass increase due to electromagnetic repulsion.
緲子&陶子質量:計徂由於電磁斥力產生己物增。
20.08.2015: Still trapped in the low entropy initial condition thinking.
當時仍然錯誤地以為大爆炸係一個熵低己狀態。
30.08.2015 (early formation of life): Realized that my theory predicts early formation of life in the universe.
發現我己理論預言地球上己生命形成得特別早,正如我地所觀察到己一樣。
04.09.2015 (corrected dark matter prediction): Corrected wrong elementary spaces table. New prediction of 60% dark matter.
糾正徂基本空間表中己一個錯誤,從而將本理論預言己大爆炸暗物質比例改正為60%。觀察數據岩好表明大爆炸時暗物質己比例就係63%,其中3%係黑洞增大所導致己。
06.09.2015 (improved formula for broken dim.; vacuum energy calculation): Added a root to the formula for granular dimensionality in order to account for the fact that one needs to access more directions in order to get a feeling for 3-dimensionality than one would need for 2-dimensionality using one 1-dimensional elementary spaces. However, I wrongly used a third root, while a second root would have been appropriate. I didn’t use it for calculations back then, so the mistake didn’t become apparent.
I also made a first calculation on the energy of the quantum vacuum.
為徂顧及到從二維空間去到三維空間所需要己可選方向比較多(多過從一維去到二維)所以匸非全數維數己公式裏邊加徂一個根,不過我本來應該加二次根,但我當時加己係三次根。當時重未開始應用到我迡個公式,所以就冇發現問題。
當時重計徂一下量子真空己能量。
14.09.2015 (more detailed analysis): A more detailed analysis found that elementary spaces must be much bigger in order to possibly form a gapless pattern of space. They must be at least bigger than the Planck length.
之後我分析到基本空間如果要組成一個完成無空隙己空間格局就一定要比粒子己臨界周長大好多。至少要大過普朗克長度。
14.09.2015 (singularity theorem depends on time symmetry): Found that Hawking’s big bang singularity theorem depends on time symmetry, which makes it highly unrealistic. For finding the highest possible density at the big bang one needs to analyse entropic expansion, not gravity.
發現徂霍金大爆炸奇點定理係利用時間對稱性假設,所以根本不符實際。大爆炸可以達到己最高密度係要分析熵性膨脹,而毋係引力。
29.09.2015 (no big bang singularity): Found that there is no big bang singularity in SPDT.
發現徂本理論冇大爆炸奇點。
01.10.2015 (testing animal consciousness with quantum erasers): If a measurement by an animal could be undone with the quantum eraser, then that animal could not be conscious. That was the basis of my later paper in 2017, but this basic idea did not specify for how long the measurement could be undone (erased) and that the final experiment would have to test consciousness basically by comparing maximal erasing delay times.
如果某一個動物己「測量」可以用量子拆除器拆除,恁迡個動物就冇意識。迡個係我匸2017年寫己論文己基礎,但迡個基礎概念冇講明有幾長時間係可以拆除測量同埋冇講明要通過查到最長可進行拆除時間有冇改變而判斷該動物是否有意識。
10.10.2015 (representation of fermionic spin & bosonic spin in SPDT): The table of elementary space types always appeared insufficiant for representing all existing particles. By including elementary spaces with only one complex dimension I managed to account for the difference between fermions and bosons.
基本空間表一直以來令人感覺佢不足以描述所有基本粒子。假設徂只有一個複數維度己基本空間之後我就解釋到怎解有費米子同玻色子之分。
10.10.2015: (no matter antimatter annihilation at the big bang): Came to the conclusion that there was no matter antimatter anihilation at the big bang. Matter does not disolve into light at high temperatures when going forwards in time. So why should it do this when we go backwards in time? It is just that light can create matter (together with antimatter) and therefore we think that the matter around us must also have been created by light, while in fact there is not evidence at all for this.
得出徂宇宙大爆炸時根本冇粒子與反粒子相互消滅己結論。普通己物質毋會因為達到好高己能量而突然之間變成光,所以時間倒來己話又怎解要變成光呢?主流物理學己迡個假設冇實驗根據。大家只不過覺得光可以產生物質己話我地周邊己物質都係光產生己比較合理,但事實上冇任何根據。
12.10.2015 (causal event horizon): Timelike event horizon one second after the big bang. The density in space particle dualism only reaches the density it had one second after the big bang in the standard model.
大爆炸一秒之後有一個類時事件視界。我理論中己宇宙模型只達到標準模型當中迡一刻己密度。
20.10.2015 (local expansion): No expansion of space on interplanetary scale according to SPD – explains why pioneer probes don’t expose the expansion of space.
根據本理論行星層面毋會有空間膨脹,因為太陽系內己熵增不足以引起空間膨脹。宇宙學標準模型當中己空間膨脹好似好難解釋到迡一點。不過由於多數人睇少迡個問題,所以先至一直都冇成為一個公認己悖論。
25.10.2015 (entropic expansion hypothesis: Acceleration only due to m^2): Realized that it is not increased formation of black holes which causes the universes expansion to accelerate, but the fact that the entropy of a black hole is proportional to the square of its mass.
發現毋係黑洞越來越多同成長越來越快導致宇宙膨脹越來越快,而係黑洞己熵與其面積成正比導致迡種指數性膨脹。
28.10.2015: Realized that entropic expansion implies that there is no actual entropy increase at all in the universe. The overall entropy density is always the same.
發現徂根據熵性膨脹原理宇宙己熵根本就係不變己,因為根據迡個原理熵己密度係永不變己,跟住討論宇宙己時候熵己總數好難定義,只可以討論佢己密度,所以宇宙層面上根本毋存在熵增。
29.10.2015: Calculated a first maximal temperature for the big bang, basing a low estimate for the entropy density of the universe.
用徂一個對宇宙熵密度己一個比較保守己估計蒞計算宇宙大爆炸己最高溫度。
02.11.2015 (entropic expansion hypothesis: More precise calculation): Improved my calculations on the entropic expansion of the universe.
改善徂熵性膨脹己計算。
07.11.2015: It is often told that the accelerated expansion started 8 billion years after the big bang (which isn’t really true). Therefore I thought it might have started because of an increasing formation of quasars at that time. However, the acceleration line is very regular, not apprupt. So it had nothing to do with quasars.
我地經常聽到宇宙己膨脹係大爆炸大約八十億年之後開始己(其實毋係),所以我當時以為可能係越來越多類星體出現引起膨脹加速。但加速己曲線好平均,所以與類星體無關。
11.11.2015 (entropic expansion hypothesis: matching curves): I got to know about a theory which links the expansion of the universe to a entropy increase of the cosmic horizon. Although it is misleading to subscribe entropy to the cosmic horizon, the entropy growth rate equals that of black holes with linear mass increase.
我遇到一個理論係用宇宙事件視界己熵增蒞解釋宇宙膨脹己加速。雖然宇宙事件視界有熵己概念本來就係行毋通己,但計出蒞己熵增本身同一個線性成長己黑洞係一致己。
29.11.2015 (critical entropy density): I started calculating how high the universe’s entropy density must be for it to reach the density it has one second after the big bang in the standard model. However, because 911-truth drew my attention, it took me two months till I could get back to the calculation I had left asside in the middle.
開始徂計算宇宙己熵密度要幾高先至可以令到宇宙能夠達到大爆炸標準模型一秒之後己密度。計算到一半之後九一一事件真相引起徂我己注意,所以研究徂九一一事件兩個月之後我先有返心機繼續研究物理。
26.01.2016 (maximal density): Showed that the universe can reach the density needed for nucleosynthesis and at the same time maintain a constant entropy density.
展示徂宇宙能夠達到允許核融己密度,同時一直保持熵密度不變。
21.02.2016 (virtual particles cloud): Lepton conglomerate: Put the growth of the virtual particles cloud into account.
計緲子&陶子質量預言項目:計埋徂虛粒雲己物增。
04.03.2016 (rate of wavefunction collapse): Established the wrong notion of large objects remaining in superposition for half a second.
錯誤地以為宏觀物體可以維持疊加態維持半秒鐘。
13.04.2016 (large objects remain in superposition for sec., which means that psychokinesis is mainly restricted by the high frequency of measurement)
宏觀物體維持疊加態只有秒,所以念力己主要限制蒞自較高己測量頻率。
24.04.2016 (cosmic voids and dark matter galaxies): Showed that the high entropy density predicted by my theory can easily be reached if all cosmic voids are full of supermassive and ultra-massive black holes.
講明徂宇宙巨洞裏邊如果有好多超級黑洞同埋極大黑洞宇宙就可以達到我預言己熵密度。
10.05.2016 (thermal tunneling & coherence horizon): Proposed that black hole entropy is not based on Hawking radiation but on large scale tunneling which is enabled by the fact that things around he event horizon and within what I call the coherence horizon are in maximal superposition, because they never get measured.
提出徂黑洞己熵己基礎毋係霍金輻射而係長途量子穿隧效應!由於事件視界周邊區域(我稱其為「相干性視界」)己粒子永遠毋被測量,所以佢地處於一種無窮己疊加態。
07.07.2016 (Fermi paradox in detail): Showed in detail that within the framework of SPD there is no way alien life could exist.
詳細解釋徂怎解按照本理論毋可以存在外星生命。
14.08.2016: Corrected the formula for granular dimensionality, invented the naked gravitational constant (also called elementary space constant), found the real size of elementary spaces and solved the hierarchy problem by correctly predicting the exact weakness of gravity by using the value for vacuum energy and this formula only. The numbers match very well.
改正徂我理論中己非全數維數;發明徂赤裸引力常數(又稱為「基本空間常數」);發現徂基本空間己真實大小同埋重新更仔精準地計算徂真空己能量,從此而準確地預言徂引力己強度(或者係弱度)。數據高度吻合。
14.08.2016 (bigger minimal BH mass in SPD): Because of the larger elementary spaces it is not longer possible for black holes to shrink down much below the typical electron radius.
由於基本空間己真實大小差毋多達到典型電子半徑,所以普朗克質量己黑洞完全冇可能可以存在。普朗克單位部分地失去徂佢原有己意義。
14.08.2016 (horizon is not a membrane): The real size of elementary spaces depends on the naked gravitation constant which corresponds to the strength of the GUT force, therefore the analogy between black holes and elementary particles has to be given up, so that the horizon of a black hole is no longer regarded to be membrane-like.
黑洞己真實大小取決於赤裸引力常數(同等於GUT統一力),所以黑洞與基本粒子之間己類推要被放棄,因此黑洞己事件視界並毋係隔膜狀己。
03.09.2016 (critical photon frequency): Calculated the energy at which a photon’s elementary space becomes larger than its wavelength.
計算徂一個光子己基本空間超越其波長所需要達到己能量。
05.09.2016 (critical electron impulse): Calculated the electron impulse at which the elementary space of the electron becomes larger than its wavelength.
計算徂一個電子己基本空間超越其波長所需要達到己衝量。
08.09.2016 (largest relevant wavelength in the quantum vacuum): Calculated the largest wavelength which contributes to the fabric of space.
計算徂最長己匸量子真空中起作用己波長。
26.09.2016 (concentric spheres and consciousness): Used quantum cosmology to explain the unit distance between the shells of higher galaxy distribution.
用徂量子宇宙學解釋我地周邊己星系怎解會組織成固定距離共同中心己重疊球面。
26.10.2016 (obscured sight in spiral arm): I found that it has to do with our sight getting periodically obscured each time our solar system enters a spiral arm.
我發現徂係因為我地周期性入銀河系己旋臂,所以我地測量外在宇宙己頻率周期性一時高一時低,所以影響宇宙己過去怎樣通過無數測量事件漸進地形成。
12.01.2017 (quantum randomness in chaotic systems): I theorized that it should be very easy to mentally influence binary chaotic systems and tried to confirm that using a psi-wheel.
我推理到用意念影響二進制混沌系統應該最容易,從而嘗試徂用意念輪證明迡個觀點。
31.01.2017 (thermal energy and PK; maximal shifting distances for PK): I found out that psychokinesis could be entirely analysed using thermodynamics and brain dynamics.
徂念動力完全可以用熱力學同埋神經學解釋。
07.03.2017 (speed limits of PK): Calculated a speed limit for psychokinetic shifting of metal objects.
計算徂用念力移動金屬物體己最高速度。
10.03.2017 (weakness of micro-PK explained by required timing precision); (shift to the frequency of subconsciousness, namely a 1/40 sec.): I explained the low successrate in mind over matter experiments on random number generators with the required timing precision. Furthermore I corrected the rate of wavefunction collapse to a 1/40 second.
我發現徂影響偶然數產生器己機率普遍恁低係因為匸啱己時刻影響佢係好難己。主要係時期掌握問題。另外我將波函數坍縮頻率改為四十分之一秒一次。
27.04.2017 (delaying the erasing to see where the collapse happens): By finding out for how long the erasing of the which path information can be delayed one can find out when the wavefunction collapses.
通過知道道路信息己拆除可以延遲幾耐我地可以知道量子波函數何時何地坍縮。
30.04.2017 (pattern rotation period): I came up with a certain spiral arm pattern rotation period depending on a four spiral arms structure and with every spiral arm causing a significant lowering of the measurement frequency.
提出徂一個旋臂格局旋轉週期係假設有四個旋臂,而且每個旋臂顯著降低測量頻率。
19.05.2017 (difference between inertia mass and gravitational mass; mass defect & Cavendish experiment): I theorized that if gravity is a side effect of charge and if charge doesn’t change, then inertia mass and gravitational mass can not be the same.
我推理到如果引力係電荷己副作用,恁慣性質量同引力質量就冇可能係同等關係。
25.05.2017 (variations of the gravitational constant; gravity weakens gravity): I theorized that the gravitational field of earth must weaken the gravity between other gravitational bodies.
我推理到地球己引力應該係弱化地球上其他物體之間己引力。
09.06.2017 (collective clock): Established the concept that when we wake up exactly on time without the use of an alarm clock, it is actually all the people looking at clocks noticing the time that makes us wake up.
建立徂一個新己超心理學概念,就係認為每次我地瞓醒醒得特別準時己時候係感應到眾多人望住鐘錶己意識,即係話係從群體意識當中感應到己。
09.06.2017 (influence of S_x on S_s): Inspired by Ludovic Krundel’s notion of overlapping personal universes I developed the concept that the opinion we have of a person could influence subsets of that person and thereby indirectly influence that persons behaviour (without physical interaction).
受到呂多域關於重疊個人宇宙己概念啟發建立徂一個新己超心理學作用,就係對一個人己觀點可以影響迡個人己子集,從而間接地影響迡個人(冇物理相互作用)。
15.06.2017 (Initial masses of primordial black holes; minimal mass when using resting ‘dark electrons’, without accounting for tunneling): Calculated a minimal mass for cold dark matter black holes which assumes that dark electrons have the same mass as ordinary electrons.
計算徂冷凍暗物質黑洞己最低質量。迡個計算背後己假設係暗電子己質量同電子一樣。
29.06.2017 (testing robot consciousness): Started writing a paper on how to test animal and robot consciousness using a quantum eraser experiment.
開始徂寫一個論文係關於怎樣用量子拆除實驗蒞探測動物意識同埋機械意識。
30.06.2017 (probing granularity of space with photons): A common objection to granular space is that it would cause zig-zagging induced delay for photons reaching us from the borders of our visible universe. I showed numerically that this doesn’t apply to space particle dualism theory, because here the atoms of space are allowed to overlap.
粒狀空間己一個常見己反對意見係指出粒狀空間會令到光子行之字路,而迡種之字路引起己延遲應該可以通過分析蒞自宇宙邊緣己光子證實到,我地未證實到任何延遲,所以有部分人認為粒狀空間己假設已被反駁。雖然空間粒子二元論己空間原子(基本空間)大過其他量子引力理論己空間原子,但由於本理論己空間原子可以重疊,所以由於行之字路引起己延遲可以忽略不計。
30.06.2017 (modifying Einstein’s field equations): Started lining out how Einstein’s field equations would have to be modified.
開始徂描述要怎樣改變愛因斯坦己場方程。
13.07.2017 (measurement fuzziness): Provided an approach of how to explain the results Dean Radin obtained with his double slit experiments.
提出徂解釋 Dean Radin 雙縫實驗己一個方案。
15.07.2017 (neutrino mass): Showed how to look at mass as being a side effect of charge and made a first attempt demonstrating that by trying to predict the mass of the neutrino, the proton and the neutron.
用徂質量係電荷己副作用迡個概念蒞嘗試預言質子、中子同埋中微子己質量。
17.07.2017 (corrected value): Corrected my prediction of the neutrino mass.
修改徂我對中微子質量己預言(導出)。
21.07.2017 (Replacement by T_ρ): Replaced the energy density tensor by an ordinary mass density tensor.
用徂普通質量密度張量代替能量密度張量。
06.08.2017 (Faraday cage): Suggested to use a Faraday cage to test animals that have a consciousness that is further delayed than ours.
提出徂使用法拉第籠蒞測試意識比我地進一步延遲己動物。
27.08.2017 (fiber loop entry and exit): Theorized about how to get photons in and out of a fiber glass loop.
描述徂如何讓光子進入同埋退出玻璃纖維環。
14.09.2017 (collection of successive self-similar sets): Used a succession of self-similar sets to explain reincarnation.
用徂一連串自相似己集合蒞解釋輪迴。
16.09.2017 (radius of coherence horizon): Calculated the radius of the ‘coherence horizon’ of a black hole.
計算徂黑洞「相干視界」己半徑。
09.10.2017 (entropy of coherence horizon): Theorized about the entropy of the coherence horizon.
分析徂相干性視界己熵。
14.10.2017 (sec. and third shell): Searched for events in biological evolution that can be linked to the retrospective formation of the second and third shell of denser galaxy distribution.
為星系密度分佈圖己第二同第三殼己回溯形成搵徂相關己生物進化事件。
20.10.2017 (entropic expansion may be derivable from QM): Theorized about the origin of entropic expansion.
構思徂熵性膨脹己來源。
25.10.2017 (first encounter with Schwartz and archeological remote viewing): Archeological remote viewing gives solid evidence for the existence of the 'world of experience'.
考古學般己遠視可以為意識集合論己經驗世界提供有力證據。
05.11.2017 (fluctuations in redshift): Theorized about how inhomogenious expansion might be observable.
思考徂怎樣可以觀察到宇宙膨脹己不平均性。
10.11.2017 (same calculation but using the elementary space radius instead): Repeated an old calculation about imaginary shrinking a charge down to zero but instead of choosing the critical circumference as the limit, I instead chose the elementary space circumference.
重複徂幾年前一個關於思想上將一個電荷壓縮到零己計算,但迡次毋係選擇臨界週長作為極限,而係基本空間週長。
16.11.2017 (comparison between black holes and elementary spaces): For demonstrating the difference between inertia mass and gravitational mass I made a comparison between elementary spaces (inertia mass) and black holes (gravitational mass).
為徂展示慣性質量同引力質量之間己差別我分析徂基本空間(慣性質量)同黑洞(引力質量)之間己差別。
18.11.2017 (glowing night-sky argument not valid): Showed some flaws in Hawkings glowing night-sky argument.
指出徂霍金熾熱夜空論點己一尐缺陷。
21.11.2017 (new vacuum energy value through direct quantization of energy + corrected granular dimensionality): I refined my value for granular dimensionality by making a more reasonable ‘second quantization’ of the quantum vacuum.
通過對量子真空進行更合理己「第二量化」我細化徂我對粒狀維數己值。
24.11.2017 (four mirrors; mirror sphere; mirror cube): Giovanni Lion suggested I could use mirror spheres or cubes instead of a fiber glass wire loop. Later on I found out that this wouldn’t work. Mirrors just don’t reflect well enough.
Giovanni Lion 建議徂我可以用鏡面球體或立方體代替玻璃纖維線圈。後屘我發現佢提議行毋通。鏡子反映始終毋夠好。
23.11.2017 & 26.11.2017 (orbital speed in elementary spaces): I calculated the orbital speed in elementary spaces. Originally I was intending to explain the slowing down of high frequency photons. However, it turned out that I was trying to explain an effect that was reported only once and that probably doesn’t exist. My calculation and reasoning also showed that such an effect can not exist.
我計算徂基本空間中己軌道速度。本來我打算解釋高頻光子放慢。不過後來先知我試圖解釋己迡效應只被報告過一次,大概並毋存在,我己計算都支持迡個觀點。
02.12.2017 (entropy of a photon): I calculated the entropy of a photon and showed that quantum entropy is in gross contrast to Bekenstein-Hawking entropy.
我計算徂單獨一個光子己熵,跟住以此展示量子熵與貝肯斯坦-霍金-熵己差異。
02.12.2017 (calculating the chance for MMI on RNGs): Derived the experimentally determined chance to influence random number generators from the frequency of the subconscious.
用徂下意識己頻道推導出微觀心物作用己成功率。
07.12.2017 (black holes can’t shrink): If mass is a side-effect of charge then the emission of massless particles like photons can’t make a black hole vaporize.
如果質量係電荷己副作用,恁無質量粒子(如光子)己發射毋會令黑洞蒸發。
09.12.2017 (accounting for tunneling): Re-calculated the minimal mass of black holes accounting for tunneling. In simple words: Particles with a certain wavelength can not create a black hole that is smaller than this wavelength.
重新計算徂黑洞己最低質量,今次係顧及到量子隧道化。簡而言之:具有一定波長己粒子毋可以產生小於該波長己黑洞。
12.12.2017 (using ‘dark electrons’ with high impulse): Calculated a third minimal mass for dark matter black holes, this time accounting for the high impulses dark matter particles must have had at the big bang.
計算徂暗物質黑洞己第三個最低質量,今次係顧及到暗物質粒子宇宙大爆炸時必須具有己高衝量。
23.12.2017 (shift to the frequency of subconsciousness): Re-calculated the maximal PK shifting distance using the frequency of subconsciousness. Before I had used the frequency of consciousness.
用徂潛意識己頻率重新計算最大己隔空移物距離。從前我係用上意識己頻率。
29.01.2018 (fiber loop is better): I learned that only fiber glass allows to store photons for longer, because reflection angles are almost zero in there.
我瞭解到其實只有玻璃纖維先至可以存儲光子,因為玻璃纖維線內反射角幾乎為零。
29.01.2018 (link to Filipovic’s mass extinction theory & corrected rotation period): Finally found the correct pattern rotation period of the milkyway galaxy by studying several papers analysing links between mass extinctions, ice-ages and passages through spiral arms. It turned out that my theory gives further support to theories linking mass extinctions with passages through spiral arms.
Previously I had made the mistake to think that all spiral arms cause significant lowering of the measurement frequency, while in fact only the two regions on the two sides of the central bulk are dense enough to have that effect.
通過研究幾個論文係關於物種大滅絕、冰冷時期同埋旋臂穿越之間己關聯卒之搵到徂正確己旋臂格局旋轉週期。事實證明,我己理論進一步支持徂將物種大滅絕同旋臂穿越連接起身己理論。以前我犯徂一個錯誤,就係認為所有己旋臂都會引起測量頻率顯著降低,而實際上只有中心體兩側己兩個區域先至足夠密集以產生迡種效果。
18.02.2018 (evidence for material influencing G): First took note of papers that confirm my prediction that G is material dependent.
首次遇到徂支持我理論己一個預言己證據,迡個預言就係引力常數部分地取決於材料。
02.03.2018 (proof for material influencing G): My research turned out to be closely related to other research showing that gravity is proportional to the overall hypercharge of a gravitational body. However, that other research was totally different in that it suggested the existence of a fifth force and an additional unobserved particle, while I use the evidence to argue into the exact opposite direction: there are only three fundamental forces.
發現徂一項與我己理論息息相關己研究,迡項研究顯示重力與引力體的總體超電荷成正比。雖然如此,但箇項研究詮釋上完全毋一樣,因為佢假設存在第五種力量同埋額外己未觀察到己粒子,而我用一樣己數據達到完全相反己結論:只有三種基本力量。
20.03.2018 (Radin’s double slit experiment is an example for PK): One can not ‘remote view’ information that hasn’t yet been created through measurements.
我地毋可以遠視到未被測量事件產生己信息,所以雷丁己雙縫實驗其實毋係遠視實驗(遠視雙縫),而係念力實驗。
21.03.2018 (nonlocal perturbation as a means of probing the wavefunction collapse): Experiments done by Radin and others back in the 70’s and 80’s which seemingly show retrocausality do infact show that information stored on a computer can remain in superposition for long amounts of time.
雷丁等人七十同八十年代做己一系列因果倒換實驗事實上並毋係展示因果倒換,而係證明保存匸電腦裏邊己信息可以長時間保留疊加態,其波含數毋會被環境所坍縮。
29.03.2018 (Surface area and inertia mass): Wrongly assumed that relativistic mass arises from spherical nature of elementary spaces.
錯誤地以為相對論性慣性質量同基本空間己球面性質有關。
30.03.2018 (Getting rid of ‘m’): Wrongly assumed different scale factors for different forces.
錯誤地以為需要用毋同己規模因素蒞處理屬於毋同自然力己粒子己基本空間。
31.03.2018 (Deriving special relativity): Showed that the Galilean relativity principle when applied to elementary spaces naturally leads to the effects of special relativity.
展示徂當我地將伽利略相對性原理應用到基本空間時自然會得出狹義相對論己各種效應。
18.03.2018 (dark matter is ‘cold’): Found that applying the uncertainty principle to elementary spaces naturally leads to the conclusion that dark matter is cold. That is a precondition for it condencing into many little black holes.
That also means that the minimal black hole mass for cold dark matter is the initial mass of primordial black holes.
發現徂將測不準原理應用到基本空間自然可以得出暗物質係冷凍迡個結論,而迡個結論啱好係暗物質凝結成無數原始黑洞己前提。
22.03.2018 (detailed analysis of remote viewing): Conducted a detailed metaphysical analysis of remote viewing.
對遠視(亦稱「遠隔透視」)進行徂一個詳細己分析。
02.04.2018 (elementary spaces slightly smaller; same size for different particles): Found that the rest size of different particles is the same despite their different masses and that GE is in fact 10^36 * G, not 10^37 * G.
發現徂毋同粒子雖然質量毋同,但係靜止面積係一樣己,而且基本空間常數 G_E 其實係 10^36 * G,而毋係 10^37 * G。
09.04.2018 (Muons and tauons as lepton conglomerates): Repeated all calculations for the muon and tauon mass with the corrected value for G_E and the corrected critical wavelength.
用徂糾正好己基本空間常數 G_E 同埋臨界波長重複徂所有針對渺子同陶子質量己計算。
27.05.2018 (G_E can be known independently from G): When multiplying G with the exact formula for the coupling constant of gravity it cancels out.
當我用徂精確己公式定義 G_E 我就發現佢完全獨立於 G 己值,就係因為 G 偶合常數已經包含 G,所以當我地定義 G_E 己時候兩個 G 就互相抵銷。
01.05.2018 (entropy drop in brain & no compensation): When looking at the brain as a system that reflects the world around us, it becomes obvious that entropy drops in the environment are entropy drops in the brain as well. There is no compensation.
如果腦袋中己各種神經元活動反映外在世界己各種發生己事件,恁外在世界熵降低,腦袋中己熵應該都要降低,所以特異功能者腦袋中無可能彌補外在世界減少己熵。
01.06.2018 (dark matter doesn’t tunnel): I realized that the minimal size for dark matter black holes is much smaller, because dark matter particles don’t tunnel.
我發現由暗物質組成己黑洞最低質量低過由正常物質組成己黑洞己最低質量。原因係計算由暗物質組成己黑洞己最低質量時係可以忽略量子隧道化。
04.06.2018 (three different types of gravity): If gravity is a side effect of the other forces, and if there are three other forces, then there must be three different types of gravity. However, it turned out there is no gravity of the weak force, so there are just two types of gravity.
如果引力係其他自然力己副作用,同埋如果引力外有三個自然力,恁就應該有三種毋同己引力。雖然如此,但研究發現弱力係冇相應己弱力引力,所以其實只有兩種引力。
08.06.2018 (improvement on G_S): I improved the formula for G_S (gravitational constant of the strong force) by multiplying the atomic number with the proton and neutron mass in atomic units.
通過將原子核核子己數量乘於質子與中子己原子單位質量提高徂 G_S(強力引力常數)己精準度。
18.06.2018 (true mass of moon and earth): I found that according to SPD theory the moon must be 3% and the earth 2.7% lighter than currently believed.
通過計算發現徂按照空間粒子二元論月亮己真實質量比目前所認為己質量輕百分之三,而地球輕過目前所認為百分之 2.7。
20.06.2018 (neutrinos don’t exert gravity): The virtual particles of the weak force don’t have a very wide range and because gravity only emerges at larger scales (wide range), there is no gravity associated with neutrinos.
弱力己虛粒子涉及範圍毋係好大,跟住因為引力係一種只會出現於比較大規模上己一種浮現力量,所以弱力冇相應己弱力引力。
23.06.2018 (Klaus Lux’s electron mass calculation): Adopted Klaus Lux’s approach of explaining the mass of the electron. Six digits agreement with the observed mass.
采用徂德國物理學家Klaus Lux己方法解釋徂電子己質量。精準度達到六個數位。
24.06.2018 (the mass of both the electron and the neutrino are sourced entirely from their force fields): Showed that the same method can be used to explain the mass of the neutron. Ten digits agreement with the observed mass.
展示徂同樣己方法可以用蒞解釋中微子己質量。精準度達到十個數位!
30.06.2018 (the mass of the proton is also entirely sourced from its force field): Showed that this method works even for complex compound particles like protons. Five digits agreement with the observed mass.
展示徂迡個方法甚至可以用蒞解釋質子迡個較為複雜己複合粒子己質量。精準度達到五個數位。
04.07.2018 (neutron mass related to beta decay): Showed that the slightly larger mass of the neutron could be related to its potential to decay.
展示徂中子稍微重過質子少少係因為佢匸原子外時可以衰變成質子。
05.07.2018 (deriving n from G_S): Showed how to derive the value for the connectivity of granular space from the gravitational constant of the strong force.
展示徂怎樣可以從強力己引力常數導出粒狀空間己連接數。
08.07.2018 (realistic shifting speed): Showed how to use the empirically found success rate for random number generators to derive a maximal speed for psychokinetic shifting.
展示徂怎樣用通過實驗確認己意識影響隨機數生成器己成功率蒞預見隔空移物實驗當中己移動速度。
15.07.2018 (quantizing velocity): Quantized the velocity of an electron over its wavelength.
用徂電子己波長量子化電子己速度。
19.07.2018 (granular space connectivity calculation hints at further restrictions to vacuum fluctuations): It turns out that vacuum fluctuations don’t go all the way up to the Planck energy but rather stop at the energies at which the elementary space becomes larger than the wavelength (the so called critical energy).
我發現徂真空波動並毋達到普朗克能量,而係達到臨界能量時就停止。臨界能量就係基本空間開始大於粒子己波長時己能量。
28.07.2018 (contribution from fermions): The contribution of rest mass particles like electrons to the connectivity of granular space was calculated.
計算徂好似電子恁樣己有靜止質量己粒子帶蒞己基本空間鏈接數。
29.07.2018 (contribution from photons & particle count): The contribution of massless particles like photons to the connectivity of granular space was calculated.
計算徂好似光子恁樣己無靜止質量質量己粒子帶蒞己基本空間鏈接數。
04.09.2018 (using zero elements): Angular momentum, heat and other pure energy contributions don’t contribute to gravity according to SPD. This can be accounted for by replacing the corresponding tensors within Einstein’s field equations by zero elements.
根據空間粒子二元論,角動量、熱量同埋其他純能量因素對於總共引力並冇貢獻。 為徂匸愛因斯坦場方程式中體現迡一點我地可以匸其中用零元素替換相應己張量。
01.11.2018 (comparing the curves of dark energy and entropic expansion): Rotated mirror images of an x^2-graph representing entropic expansion and an x^3-graph representing dark energy were overlaid with the expansion curve of our universe. The x^2-graph of entropic expansion fits perfectly, while dark energy is a total mismatch.
將一個代表熵性膨脹己 曲線同埋一個代表暗能量己 曲線轉移90度同反射之後與宇宙己膨脹曲線對照。對照結果係熵性膨脹己 曲線與現實中己宇宙膨脹曲線完全吻合,而暗能量己 曲線完全毋吻合。
02.11.2018 (how does gravity escape a black hole?): If black holes are in fact eternally collapsing objects (ECO), then it is easy to understand how virtual particles escape the interior of a black hole, transmitting its gravity.
如果黑洞事實上係「永塌體」我地就好容易理解虛粒子怎樣離開黑洞,傳遞其引力。
08.11.2018 (rotating black holes are still spherical): Angular momentum does not increase the gravity of in-falling objects. Therefore a black holes spin doesn’t influence its shape.
角動量毋會增加墜落物體己重力。因此,黑洞己旋轉毋會影響其形狀。
19.11.2018 (rare earth hypothesis and morphic resonance between eons): Morphic resonance was used to explain why we live in a universe that is extremely fine-tuned for life.
用徂形態共振己概念解釋怎解我地處於一個高度為生命精細調整己宇宙。
27.11.2018 (dark matter black holes are exo-transparent): It was found that black holes comprised entirely of dark matter are ‘exo-transparent’, which means that things falling into them disappear, but self-illuminated objects on the other side are able to shine through.
發現徂完全由暗物質組成己黑洞係「外透明」,即係跌入黑洞裡面己物體眼前消失,但對面己自照明物體可以透過黑洞照過。
27.11.2018 (no observational constrains on the size of hypermassive black holes): Accordingly extremely massive dark matter black holes would not cast large shadows onto the background sky. Therefore there are no observational constrains on the size of such black holes.
如果由暗物質組成己黑洞真係「外透明」佢地匸恆星背景上就毋會留任何影子。如此觀察數據對暗物質黑洞並毋提供己任何質量上限。
28.11.2018 (magnetic fields are kept): If black holes are eternally collapsing objects, then they have no absolute event horizons and can therefore keep their magnetic fields.
如果黑洞係「永塌體」佢地就冇一個絕對己事件視界,因此佢地並毋會失去佢地己磁場。
29.11.2018 (evidence for magnetic fields): Evidence for that already exists from observations on Quasars.
相應己證據已經被從類星體己觀察所取得。
29.11.2018 (morphic resonance between the last and the first observer): Morphic resonance links the last observer of an eon to the first observer of a new eon, enabling a smooth transition between the two.
形態共振可以將宇宙中最後一個觀察者同下一個宇宙第一個觀察者聯繫起身,實現兩者之間己平穩過渡。
04.12.2018 (curving of light makes it impossible to observe the shape of the apparent horizon): The event horizon project claims to test general relativity by observing the event horizon of Sagittarius-A. Yet, bending of light around the black hole casts a shadow on the star background that is 10 times larger than the actual event horizon. This shadow is the same in both GR and SPD, therefore the project cannot represent a test for gravity theories.
事件視界項目聲稱通過觀察射手座-A的事件視界䇐測試廣義相對論。然而,黑洞周圍己光線彎曲會匸星形背景上投下陰影,係實際事件視界己10倍。廣義相對論同空間粒子二元論中己陰影係相同己,因此該項目毋能夠代表對重力理論己測試。