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On Wave Function Collapse in Quantum Mechanics in the case of a Spin system having three anticommuting operators || Foundations of quantum mechanics; quantum collapse; commutation relations of Pauli matrices || We use a two states quantum spin system S, and thus considering the particular case of On Wave Function Collapse in Quantum Mechanics in the case of a Spin system having three anticommuting operators Elio Conte Abstract- We use a two states quantum spin system S, and thus considering the particular case of three anticommuting elements and the measurement of 푒3. We evidence that, during the wave collapse, we have a transition of standard commutation relation of the spin to new commutation relations and this occurs during the interaction of the S system with the macroscopic measurement system M. The reason to accept such viewpoint is that it causes the destruction of the interferential factors and of the fermion creation and annihilation operators of the S system without recourse to further elaborations based on the use of Hamiltonians or other methods. By this the formulation we propose a new method in attempting to solve the problem of wave function collapse. The concept of Observable, in use in standard quantum mechanics, is resolved in an abstract entity to which is connected a linear hermitian operator that signs mathematically the operation that we must perform on the wave function in order to obtain the potential and possible values of the observable. It does not commute with a number of other operators characterizing the system and the non-commuting rules have a fundamental role in quantum mechanics. They have a logic that must be analyzed in each phase of the non-measuring and the measuring processes. When we consider the dynamics of wave function collapse we must an account that the observed Observable becomes a number, with proper unity of measurements, during the measurement, thus the linear hermitian operator to which is connected before the measurement, disappears and in its place, it appears a new operator that maintains the non-commutativity with the other operators to which the old and disappeared operator was connected.

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Physics Tomorrow Theoretical Physics Letters TPL is an international thrice reviewed journal which publishes the novel research and review articles on every dimension of the physics. The current impact factor is 1.4 as per 2019 update. Physics Tomorrow Theoretical, Experimental and Observational Physics Letters (PTEL) Basic information Home Support About Email Word of the editor. | PTEL is an open access international journal which covers the recent trends of theoretical, experimental and observational physics. This aims to provide a great opportunity to the lead researchers worldwide for publishing their valuable works. Because I believe that great ideas are priceless. Submit your manucript Online submssion Email submission Impact factors Manuscript preparation Submit your paper at ptlsubmission@gmail.com For further information visit wikipt.org/ptl Paper template .doc Cover letter templete .doc Updated 2019 See the publication honorarium Join as Editor Reviewer Read Priprints release Extended indexing Science Citation (SCI) Scopus On Wave Function Collapse in Quantum Mechanics in the case of a Spin system having three anticommuting operators Elio Conte School of Advanced International Studies on Applied Theoretical and Non-Linear Methodologies of Physics Bari, Italy elio.conte@fastwebnet.it Keys: Foundations of quantum mechanics; quantum collapse; commutation relations of Pauli matrices 25 October 2019 Cite this article Download full text Read Submission is open Website is designed simply. Get anything from the search bar. PTL does not have any last submission date. We accept submissions always. PTL fellowship Best paper award Research sponsorship June submissions will be eligible for award and fellowship. Get is published earlier to apply for it later.

PTedmemFatma_SARF | Physics Tomorrow | Bibliography. She is an editorial member of Physics Tomorrow Letters. Contact Fatma Ozutok Nationality: Turkish Marital Status : Married Educational Situation : 2000 - 2005 Selçuk University College of Education Physics teacher/Licence degree 2007 – 2009 Selçuk University Physics Department Physics/Graduate degree Thesis Title: Optical Phonon Modes in Quantum WellStructures (Advisor: Prof.Haluk Şafak) 2009 – 2016 Canakkale Onsekiz Mart University Physics Department Physics/PhD degree Thesis Title: Obtaining of Nanocomposites That Using Metal Oxide Thin Films with Metal and/or CarbonNanotube Modification for Sensor Applications (Advisor: Assoc.Prof. Sani Demiri) Language Proficiency: YOKDIL 70 (Level: Good writing and speaking Assignment : 2009- today: Canakkale Onsekiz Mart University Physics Department Research assistant 09.2015-02.2016: Aalto University NMG Department Visiting researcher 10.2017-02.2018 Istanbul Technical University Physics Engineering Short-term study 08.10.2018-today: Istanbul Technical University Materials Engineering FUK-2018-2613 project study Research Areas: 2009-2014 USP technique (Çanakkale Onsekiz Mart University Solid State Lab.) 2014-2016 Spin coating, CBD techniques (Çanakkale Onsekiz Mart University Material Lab.) 2015 FC-CVD Process (Aalto University NMG Lab.), Carbon nanotubes. 2009-2016 II-VI Metal Oxides (ZnO, ZnS etc.) and thin films. 2009-2016 Uv-Vis Spectroscopy (Çanakkale Onsekiz Mart University Material Lab.). 2013 Luminescence ( Universitat Wien, Short course, LuminescenceSpectroscopy). 2014 Luminescence (Ankara University, Nuclear Science Department, certified workshop). 2014-2016 Gas sensors, electrical properties (Gazi Univ., University Nano Lab.) Awards& Scholarships: 2014 Young Entrepreneur Contest, 1st prize. Celal Bayar University, Turkey. 2015 MEB-CIMO Research Scholarship at PhD level. Aalto University, Finland. Organization Responsibility: 2014 Workshop for high school science department teachers (Technician). Güzelyalı IDA KALE Hotel, Turkey. On-going Projects: 2018. Çanakkale Onsekiz Mart University, Council of Scientific Research Project (Grant Number: FUK-2018-2613) (Coordinator) Conferences: 2011 Poster, 7th Nanoscience and Nanotechnology Conference (NANOTR-VII), İstanbul/Turkey. 2011 Poster, International Symposium on Advanced Complex Inorganic Nanomaterials, Namur/Belgium. 2014 Poster, Solid State Meeting in IZTECH, İzmir/Turkey. 2014 Poster, UGHEK 2014, Eskişehir/Turkey. 2014 Poster, Solid State Meeting in Hacettepe University, Ankara/Turkey. 2015 Poster, NanoTR-11 in METU, Ankara/Turkey. 2016 Oral presentation, TFD 32. International Physics Congress, Muğla/Turkey. 2016 Poster, 18th National Optic, Electro-optic and Photonic Workshop, Ankara/Turkey. 2016 Poster, National CMP-22 Meeting, Ankara/Turkey. 2017 Poster, Solid State Meeting in IZTECH, İzmir/Turkey. 2017 Poster and oral presentation, 4th International Conference on Molecular Spectroscopy, Krakow/Poland. 2017 Oral presentation, ISCMP The International Congress of Materials and Polymers, Ohrid/Macedonia. 2019 Oral presentation, VI. Internatıonal Congress On Mathematıcs, Engıneerıng & Natural & Health Scıences, Adana/Turkey Publications : 2019 Sarf F., ‘Advanced Battery Applications of Thin Films’, SCIERA Journal of Materials, 4: 14-31. 2018 Sarf F. and Yakar E., ‘Investigation of ZnFe2O4 Films Depending on the Complex Agent Ratio’, Çanakkale Onsekiz Mart University Journal of Graduate School of Natural and Applied Sciences, 4(2):200-211. 2018. Özütok F. and etc.’ Enhancing the CO gas sensing properties of ZnO thin films with the decoration of MWCNTs’, Journal of Materials Science: Materials in Electronics (https://doi.org/10.1007/s10854-018-0288-2). 2018. Özütok F. and Yakar E., ‘Optical and Electrochemical Properties of PB-ZnO and PB-ZnO/MWCNT Nanocomposite Films Deposited by Chemical Bath’, Journal of New Materials for Electrochemical Systems, 21:119-126. 2018 Özütok F. and Yakar E., ‘Annealing Time Effect on the Optical Properties of Zn(O,OH,S) Films onto ZnO Seed Layer Under Un-vacuum Ambient, Sakarya University Journal of Science, 22(6):9 pages. DOI:10.16984/saufenblder.34975. 2018 Özütok F. and Yakar E., ‘Influence ofSulphur Concentration on the Optical Properties of ZnS Films onto ZnO Seed Layer Synhesized by Chemical Bath Deposition’, Journal of Applied Spectroscopy, (ZhPS) 85 (3):351. 2018 Özütok F. and etc., ‘Influence of Different Aluminum Source on the NH3 Gas Sensing Properties of ZnO Thin Films’, Journal of Electronic Materials, 47(5):2648-2657.(doi.org/10.1007/s11664-018-6099-7). 2017 Özütok F. and Demiri S., ‘Nanoflower-like ZnO Films Prepared by Modified Chemical Bath Deposition: Synthesis, Optical Properties and NO2 Gas Sensing Mechanism’, Digest Journal of Nanomaterials and Biostructures, 12, 309-317. 2016 Özütok F. and etc., "Electrochromıc NiO Thın Fılms Prepared bySpın Coatıng ", AIP Publsihing Conference Proceedings, no.1815, 050011. 2012 Özütok F. and etc., ‘Growth, Electrical, and Optical Study of ZnS:Mn Thin Films.’, ACTA PHYSICA POLONICA SERIES A 12120 (78). 2012 Özütok F. and etc., ‘Study of Ultrasonically Sprayed ZnO Films: Thermal Annealing Effect.’, ACTA PHYSICA POLONICA SERIES A 121(1) Completed Projects: 2016 Çanakkale Onsekiz Mart University, Council of Scientific Research Project (Grant Number: FDK-2015-470) (researcher) 2016 Çanakkale Onsekiz Mart University, Council of Scientific Research Project (Grant Number: FBA-2016-1051) (coordinator) 2017 Çanakkale Onsekiz Mart University, Council of Scientific Research Project (Grant Number: FBA-2017-1265) (Coordinator) 2017 Çanakkale Onsekiz Mart University, Council of Scientific Research Project (Grant Number: FBD-2017-1321) (researcher) Evaluated Papers: Material Science Research India: Phase formation and Morphological features of Calcium Copper titanate by modified Solid State Process, March 2019. Material Science Research India: Tensile and impact properties of composite blends based unsaturated polyester resin and vinyl ester with nata de coco fiber: Effect of various treatment on fiber, April 2019.

Here is the frequently asked questions from Physics Tomorrow Letters team. Read the published FAQs to solve your query within an instant. Top picked FAQs from Physics Tomorrow Letters Latest FAQs and highlights for authors What is InspectTyper solution ? InspectTyper solution is a service to the scholars and scientists to help them in writing their research thesis, articles, papers, communications etc. Is InspectTyper a free service ? InspectTyper is not free to the clients. Depending on the availability of special considerations this service could often be free of cost. How InspectTyper works ? InspectTyper solution is a professional and skilled editorial service to the authors who either do not have time to write the research articles or they are not expertise in writing and as a consequence of that SCOPUS or SCI journals are rejecting the articles many times. Do the InspectTyper give a guarantee of SCOPUS or SCI publisher's acceptance? The quality of the research article is responsible to get accepted in the journals. The InspectTyper will redesign and rewrite your article which will increase the acceptance chances. Word of Chief Editor Physics Tomorrow Letters is a thrice Reviewed monthly online journal, that accepts innovation and exclusive research works in all spheres of Science from researchers and scientists in their respective fields. This journal aims to disseminate high-quality research works in the form of Original Research Papers, Case Reports, Review Reports, etc to science. The quality papers published are inline and acceptable by the Physics Tomorrow Letters Council of India (PTLCI), Other Statutory Authorities in India and across the World. The journal is released every 30th of the Month. Editor's note Physics Tomorrow is a not-for-profit organization that provides the best opportunity for people for publishing their quality research papers at a minimum cost. The most crucial thing is the research program. Physics Tomorrow gives the funding for research to the students and the researchers. Because we always value your thoughts and research. What about the Grammarly partnership ? Grammarly Inc. is a professional service that automatically reforms an article professionally. The partnership with Grammarly Inc. provides the best class editors by the Grammarly company who works with InspectTyper in a specific method to deliver the SCOPUS and SCI addicted manuscripts.

Canadian Science X Probing critical states of matter on a digital quantum computer Canadian Science Letters X HOME JOURNALS PRICING AND PLANS SUBMIT CSX/vol-1/no-03/Probing critical states of matter on a digital quantum computer PTL PREMIUM Received 19 January 2023 Reviewed 28 February 2023 Accepted 25 April 2023 Probing critical states of matter on a digital quantum computer Reza Haghshenas 1Quantinuum, 303 S. Technology Ct., Broomfield, Colorado 80021, USA Eli Chertkov Matthew DeCross Thomas M. Gatterman Justin A. Gerber,1 Kevin Gilmore,1 Dan Gresh,1 Nathan Hewitt,1 Chandler V. Horst,1 Mitchell Matheny,1 Tanner Mengle,1 Brian Neyenhuis,1 David Hayes,1 and Michael Foss-Feig1, † Canadian Science Letters X 2023 ° 03(05) ° 01-03 https://www.wikipt.org/csx-home DOI : 10.1490/6576500.983csx Funding Agent Details Not Applicable. Unlock Only Read-only this publication This option will drive you towards only the selected publication. If you want to save money then choose the full access plan from the right side. Buy Unlock all Get access to entire database This option will unlock the entire database of us to you without any limitations for a specific time period. This offer is limited to 100000 clients if you make delay further, the offer slots will be booked soon. Afterwards, the prices will be 50% hiked. Unlock us Abstract Although quantum mechanics underpins the microscopic behaviour of all materials, its effects are often obscured at the macroscopic level by thermal fluctuations. A notable exception is a zerotemperature phase transition, where scaling laws emerge entirely due to quantum correlations over a diverging length scale. The accurate description of such transitions is challenging for classical simulation methods of quantum systems, and is a natural application space for quantum simulation. These quantum simulations are, however, not without their own challenges — representing quantum critical states on a quantum computer requires encoding entanglement of a large number of degrees of freedom, placing strict demands on the coherence and fidelity of the computer’s operations. Using Quantinuum’s H1-1 quantum computer, we address these challenges by employing hierarchical quantum tensor-network techniques, creating the ground state of the critical transverse-field Ising chain on 128-sites with sufficient fidelity to extract accurate critical properties of the model. Our results suggest a viable path to quantum-assisted tensor network contraction beyond the limits of classical methods. Quick View Newly listed Tphysletters A Unifying Bag Model of Composite Fermionic Structures in a Cold Genesis Theory Regular Price $700.00 Sale Price $400.00 Excluding Sales Tax Quick View TphysicsLetters Detection of the large-scale tidal field with galaxy multiplet alignment in the Regular Price $1,900.00 Sale Price $950.00 Excluding Sales Tax Quick View Newly listed Tphysletters Violation of γ in Brans-Dicke gravity Regular Price $1,000.00 Sale Price $600.00 Excluding Sales Tax Quick View Astrophysics Observations and detectability of young Suns’ flaring and CME activity in optica Regular Price $1,000.00 Sale Price $450.00 Excluding Sales Tax Quick View TphysicsLetters Tunable structure-activity correlations of molybdenum dichalcogenides (MoX2; X=S Regular Price $2,000.00 Sale Price $400.00 Excluding Sales Tax Quick View New Thphysletters Bayesian and frequentist investigation of prior effects in EFTofLSS analyses of Regular Price $3,000.00 Sale Price $370.00 Excluding Sales Tax Quick View New Thphysletters A search for faint resolved galaxies beyond the Milky Way in DES Year 6: A new f Regular Price $1,900.00 Sale Price $750.00 Excluding Sales Tax Quick View New X-ray polarization properties of partially ionized equatorial obscurers around a Regular Price $800.00 Sale Price $350.00 Excluding Sales Tax Quick View New Unravelling multi-temperature dust populations in the dwarf galaxy Holmberg II Regular Price $1,200.00 Sale Price $400.00 Excluding Sales Tax Quick View New SpookyNet: Advancement in Quantum System Analysis through Convolutional Neural N Regular Price $1,500.00 Sale Price $500.00 Excluding Sales Tax Quick View New Rapid neutron star cooling triggered by accumulated dark matter Regular Price $1,500.00 Sale Price $500.00 Excluding Sales Tax Quick View Newly listed Tphysletters Searching for Radio Outflows from M31* with VLBI Observations Price $300.00 Excluding Sales Tax Load More Introduction Simulating quantum systems is a natural task for quantum computers, and is widely considered amongst their most important and most feasible near-term applications. Despite this consensus, it would be wrong to infer that the path to outperforming the best classical methods for simulating quantum systems is easy, or even clearly laid out. One challenge is that quantum states with low entanglement can be accurately and efficiently represented using classical tensor-network (TN) techniques [1], i.e., low-entanglement problems are not hard for classical computers. On the other hand, quantum states with high entanglement are generally difficult to accurately produce on existing quantum processors due to hardware imperfections. An important situation in which classical tensor network methods reveal their vulnerability to entanglement is the study of quantum critical points. In one spatial dimension, matrix product states (MPS) cannot accurately describe critical systems in the large systemsize limit unless the bond-dimension (and therefore classical simulation overhead) grows polynomially with system size [2]. In practice, the polynomial overheads are tame enough to allow accurate MPS calculations for 1D critical systems, though with considerably more difficulty than calculations away from criticality. In dimensions d > 1 or for systems out of equilibrium, the growth of entanglement with either system size or evolution time remains a significant obstacle to performing accurate TN calculations classically. Conclusion We employ a form of zero-noise extrapolation (ZNE) [14], which works for our native arbitrary-angle two-qubit gate UZZ(θ) = exp(−i θ 2 Z ⊗ Z), to mitigate the errors in our experimentally measured observables. The expectation value of an observable E(p) computed from the quantum computer depends on the amount of noise caused by noisy operations like two-qubit gates, with p setting the scale of the noise. For small enough p, we expect E(p) ≈ E0 + pE1 to be well approximated by a first-order Taylor expansion, with E(p = 0) = E0 corresponding to the ideal zero-noise expectation value. By performing two experiments, one at p and one at mp for small enough m, we can use a simple linear extrapolation to estimate the zero-noise value as Purchase this artcle at here to read more. References [1] R. Or´us, Nature Reviews Physics 1, 538 (2019). [2] R. Or´us, Annals of Physics 349, 117 (2014). [3] G. Vidal, Phys. Rev. Lett. 99, 220405 (2007). [4] G. Vidal, Phys. Rev. Lett. 101, 110501 (2008). [5] J. M. Pino, J. M. Dreiling, C. Figgatt, J. P. Gaebler, S. A. Moses, M. S. Allman, C. H. Baldwin, M. Foss-Feig, D. Hayes, K. Mayer, C. Ryan-Anderson, and B. Neyenhuis, Nature 592, 209 (2021). [6] M. DeCross, E. Chertkov, M. Kohagen, and M. FossFeig, arXiv preprint arXiv:2210.08039 (2022). [7] I. H. Kim, arXiv:1702.02093 (2017). [8] M. Foss-Feig, D. Hayes, J. M. Dreiling, C. Figgatt, J. P. Gaebler, S. A. Moses, J. M. Pino, and A. C. Potter, Phys. Rev. Research 3, 033002 (2021). [9] F. Barratt, J. Dborin, M. Bal, V. Stojevic, F. Pollmann, and A. G. Green, Npj Quantum Inf. 7 (2021). [10] E. Chertkov, J. Bohnet, D. Francois, J. Gaebler, D. Gresh, A. Hankin, K. Lee, D. Hayes, B. Neyenhuis, R. Stutz, A. C. Potter, and M. Foss-Feig, Nat. Phys. 18, 1074 (2022). [11] D. Niu, R. Haghshenas, Y. Zhang, M. Foss-Feig, G. K.- L. Chan, and A. C. Potter, PRX Quantum 3, 030317 (2022). [12] Y. Zhang, S. Jahanbani, D. Niu, R. Haghshenas, and A. C. Potter, Phys. Rev. B 106, 165126 (2022). [13] E. Chertkov, Z. Cheng, A. C. Potter, S. Gopalakrishnan, T. M. Gatterman, J. A. Gerber, K. Gilmore, D. Gresh, A. Hall, A. Hankin, M. Matheny, T. Mengle, D. Hayes, B. Neyenhuis, R. Stutz, and M. Foss-Feig, arXiv:2209.12889 (2022). [14] K. Temme, S. Bravyi, and J. M. Gambetta, Phys. Rev. Lett. 119, 180509 (2017). [15] C. Ryan-Anderson, N. Brown, M. Allman, B. Arkin, G. Asa-Attuah, C. Baldwin, J. Berg, J. Bohnet, S. Braxton, N. Burdick, et al., arXiv preprint arXiv:2208.01863 (2022). [16] I. H. Kim and B. Swingle, arXiv preprint arXiv:1711.07500 (2017). [17] S. Sivarajah, S. Dilkes, A. Cowtan, W. Simmons, A. Edgington, and R. Duncan, Quantum Science and Technology 6, 014003 (2020). [18] Q. Miao and T. Barthel, arXiv preprint arXiv:2108.13401 (2021). [19] S. Anand, J. Hauschild, Y. Zhang, A. C. Potter, and M. P. Zaletel, arXiv preprint arXiv:2203.00886 (2022). [20] G. Evenbly and G. Vidal, Phys. Rev. B 79, 144108 (2009). [21] R. Islam, E. E. Edwards, K. Kim, S. Korenblit, C. Noh, H. Carmichael, G. D. Lin, L. M. Duan, C. C. Joseph Wang, J. K. Freericks, and C. Monroe, Nature Communications 2, 377 (2011). [22] J. W. Britton, B. C. Sawyer, A. C. Keith, C. C. J. Wang, J. K. Freericks, H. Uys, M. J. Biercuk, and J. J. Bollinger, Nature 484, 489 (2012). [23] In an effort to minimize gate counts, we explored various schemes interpolating between MERA and a tree tensor network [34] (e.g. excluding various layers of disentanglers), and found that removing the top layer of disentanglers had only minimal effect on the convergence of the energy; we therefore excluded that one row of (two) disentanglers. [24] R. Haghshenas, J. Gray, A. C. Potter, and G. K.-L. Chan, Phys. Rev. X 12, 011047 (2022). [25] J. Gray, Journal of Open Source Software 3, 819 (2018). [26] R. Haghshenas, Phys. Rev. Res. 3, 023148 (2021). [27] Extensive theoretical modeling and experimental evidence from direct randomized benchmarking indicates that the error (average infidelity) of our native gates decreases roughly linearly with angle (with an offset at zero angle of well under 10−3 ). [28] Circuit depth is given by pytket-quantinuum library [17], defined as interior vertices on the longest path through the directed Acyclic graph. The reported circuit depth is obtain by only keeping two-qubit gates. [29] S. Singh, R. N. C. Pfeifer, and G. Vidal, Phys. Rev. A 82, 050301 (2010). [30] Quantinuum H1-1, https://www.quantinuum.com/ , December 2022 to January 2023. [31] Quantinuum System Model H1 Product Data Sheet, https://www.quantinuum.com/products/h1 , Version 5.20. February 15, 2023. [32] M. Dupont and J. E. Moore, Phys. Rev. B 106, L041109 (2022). 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Submission central - Physics Tomorrow. Submit your manuscript online to Physics Tomorrow Letters. No need to mail your paper except the special issues. Check the honorarium for publications form the respective link. Read every instruction carefully before making a submission. Thank you. Physics Tomorrow Letters manuscript submission portal Get Your Manuscript Edited No APC payment plans Enquiry on publication fee Infromation to Authors' Authors' Benifits Open Access Policy Terms of Reuse Editorial Guidelines Basic information Home Support About Email Submit your manucript Online submssion Email submission Impact factors Read carefully for online submission The author must follow the few following steps. The important points for submission Submission can be only .pdf or .doc in format. Any type of supplementary document like images should be included on the last page of the manuscript. If there has any datasheet then select yes at the supplementary option in the submission form and after submission when the author will receive the acknowledgement email from PTL then our team will guide you on how to submit the rest files. Each submission should be in the proper template as per PTL standards. One submission must contain a cover letter. Download the cover letter template, fill out the form and save it as a .pdf in the format before uploading. If you don't want to submit the cover letter separately then kindly fill in all the information in the submission form. After submission, you will get the unique manuscript ID kindly to keep it safe. Make sure you are already registered with ORCID . During submission, authors must select the specific journal name. The authors can also select multiple journals if they feel to choose. Note- If one manuscript gets accepted in multiple journals the authors will be able to publish only one journal only the rest will be automatically cancelled. Every individual journal has different acceptance rates and review times. The authors must go through the related webpage. After submission anytime the authors could be contacted by the publication department as per reviewers' requirements. Join as Editor Reviewer Extended indexing Science Citation (SCI) Scopus Submission is open Website is designed simply. Get anything form the search bar. PTL fellowship Best paper award Research sponsorship June submissions will be eligible for award and fellowship. Get is published earlier to apply for it later. Theoretical Physics Letters Impact factor 1.2 Know more about journals

Dark Core: A New Finding about the Mystery of Gravity. This paper explains a mysterious fact about Gravity which has been discovered after 11 years of research. Gravity is not the way Newton, Einstein or other physicists have thought over the years.

Applied Nanoelectronic Letters publishes the best quality articles under the micro and nano electronics field. Physics Tomorrow Applied Nanoelectronics Letters (AnEL) An SCOPUS-indexed monthly thrice peer-reviewed journal. Physics Tomorrow Applied Nanoelectronics Letters AnEL is an international thrice reviewed journal which publishes the novel research and review articles on every dimension of the electronics. The current impact factor is updating as this is newly launched journal. physical review a, applied physics letters. Word of the editor. | AnEL is an open access international journal which covers the recent trends of theoretical and experimental works on macro, micro and nanoelectronics. This aims to provide a great opportunity to the leading researchers worldwidely for publishing their valuable works at no or minimum honorarium. NO PUBLICATION CHARGE CURRENTLY. Submit your paper at ptlsubmission@gmail.com OR click here to submit Submit your manuscript See the publication honorarium AneL contains a collection of papers in the subfields of scanning probe microscopy, nanofabrication, functional nanoparticles and nanomaterials, molecular engineering, nano device fabrication and bionanotechnology. Written by experts in their respective fields, it is intended for a general scientific readership who may be non-specialists in these subjects, but who want a reasonably comprehensive introduction to them. This volume is also suitable as resource material for a senior undergraduate or introductory graduate course in nanoscience and nanotechnology. Contents: Scanning Probe Techniques: Scanning Probe Microscopy Based Nanoscale Patterning and Fabrication Nanoscale Characterization by Scanning Tunneling Microscopy Nanofabrication: EUV Lithography for Semiconductor Manufacturing and Nanofabrication Synchrotron-Radiation-Supported High-Aspect-Ratio Nanofabrication Functional Nanomaterials: Chemical Interactions at Noble Metal Nanoparticle Surfaces — Catalysis, Sensors and Devices Diamond-Like Carbon: A New Material Base for Nanoarchitectures Hotplate Technique for Nanomaterials Molecular Engineering: π-d Interaction Based Molecular Conducting Magnets: How to Increase the Effects of the π-d Interaction Recent Developments on Porphyrin Assemblies Bionanotechnology and Nanomedicine: Nanostructures from Designer Peptides Nanotechnology and Human Diseases Nanomedicine: Nanoparticles of Biodegradable Polymers for Cancer Diagnosis and Treatment

Doing your project research work, now need help? No worries just drop us a mail physicstomorrow2016@gmail.com will give you best-experienced research collaborator that you can publish your research work in some SCI, SCOPUS index journals or conferences. Even we will provide you the research gr Development of multi-heterojunction semiconductor for photoluminescence applications. Stay tuned for the next project notification. Application closed. || Project started.