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Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format
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Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format Example of EPJ Quantum Technology format
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EPJ Quantum Technology — Template for authors

Publisher: Springer
Guideline source
Categories Rank Trend in last 3 yrs
Condensed Matter Physics #52 of 411 down down by None rank
Electrical and Electronic Engineering #107 of 693 down down by None rank
Atomic and Molecular Physics, and Optics #32 of 192 down down by None rank
Control and Systems Engineering #47 of 260 down down by None rank
journal-quality-icon Journal quality:
High
calendar-icon Last 4 years overview: 35 Published Papers | 232 Citations
indexed-in-icon Indexed in: Scopus
last-updated-icon Last updated: 01/06/2020
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Journal Performance & Insights

CiteRatio

SCImago Journal Rank (SJR)

Source Normalized Impact per Paper (SNIP)

A measure of average citations received per peer-reviewed paper published in the journal.

Measures weighted citations received by the journal. Citation weighting depends on the categories and prestige of the citing journal.

Measures actual citations received relative to citations expected for the journal's category.

6.6

4% from 2019

CiteRatio for EPJ Quantum Technology from 2016 - 2020
Year Value
2020 6.6
2019 6.9
2018 5.5
graph view Graph view
table view Table view

1.392

16% from 2019

SJR for EPJ Quantum Technology from 2019 - 2020
Year Value
2020 1.392
2019 1.204
graph view Graph view
table view Table view

1.036

21% from 2019

SNIP for EPJ Quantum Technology from 2018 - 2020
Year Value
2020 1.036
2019 1.314
2018 1.011
graph view Graph view
table view Table view

insights Insights

  • CiteRatio of this journal has decreased by 4% in last years.
  • This journal’s CiteRatio is in the top 10 percentile category.

insights Insights

  • SJR of this journal has increased by 16% in last years.
  • This journal’s SJR is in the top 10 percentile category.

insights Insights

  • SNIP of this journal has decreased by 21% in last years.
  • This journal’s SNIP is in the top 10 percentile category.

EPJ Quantum Technology

Guideline source: View

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Springer

EPJ Quantum Technology

Approved by publishing and review experts on SciSpace, this template is built as per for EPJ Quantum Technology formatting guidelines as mentioned in Springer author instructions. The current version was created on and has been used by 217 authors to write and format their manuscripts to this journal.

Nanotechnology and Microengineering

i
Last updated on
01 Jun 2020
i
ISSN
1606-8610
i
Open Access
Yes
i
Sherpa RoMEO Archiving Policy
White faq
i
Plagiarism Check
Available via Turnitin
i
Endnote Style
Download Available
i
Citation Type
Author Year
(Blonder et al, 1982)
i
Bibliography Example
 Beenakker CWJ (2006) Specular andreev reflection in graphene. Phys Rev Lett 97(6):067,007, URL 10.1103/PhysRevLett.97.067007

Top papers written in this journal

open accessOpen access Journal Article DOI: 10.1140/EPJQT/S40507-020-0080-0
AEDGE: Atomic experiment for dark matter and gravity exploration in space
Yousef Abou El-Neaj1, Cristiano Alpigiani2, Sana Amairi-Pyka3, Henrique Araujo4, Antun Balaž5, Angelo Bassi6, Lars Bathe-Peters7, Baptiste Battelier8, Aleksandar Belić5, Elliot Bentine9, Jose Bernabeu10, Andrea Bertoldi8, Robert Bingham11, Robert Bingham12, Diego Blas13, Vasiliki Bolpasi14, Kai Bongs15, Sougato Bose16, Philippe Bouyer8, T. J. V. Bowcock17, William B. Bowden18, Oliver Buchmueller4, Clare Burrage19, Xavier Calmet20, Benjamin Canuel8, Laurentiu Ioan Caramete, Andrew Carroll17, Giancarlo Cella6, Vassilis Charmandaris14, S. Chattopadhyay21, S. Chattopadhyay22, Xuzong Chen23, Maria Luisa Chiofalo24, J. P. Coleman17, J. P. Cotter4, Y. Cui25, Andrei Derevianko26, Albert De Roeck27, Goran S. Djordjevic28, P. J. Dornan4, Michael Doser27, Ioannis Drougkakis14, Jacob Dunningham20, Ioana Dutan, Sajan Easo12, G. Elertas17, John Ellis27, John Ellis13, John Ellis29, Mai El Sawy30, Mai El Sawy31, Farida Fassi, D. Felea, Chen Hao Feng8, R. L. Flack16, Christopher J. Foot9, Ivette Fuentes19, Naceur Gaaloul32, A. Gauguet33, Remi Geiger34, Valerie Gibson35, Gian F. Giudice27, J. Goldwin15, O. A. Grachov36, Peter W. Graham37, Dario Grasso24, Maurits van der Grinten12, Mustafa Gündoğan3, Martin G. Haehnelt35, Tiffany Harte35, Aurélien Hees34, Richard Hobson18, Jason M. Hogan37, Bodil Holst38, Michael Holynski15, Mark A. Kasevich37, Bradley J. Kavanagh39, Wolf von Klitzing14, Tim Kovachy40, Benjamin Krikler41, Markus Krutzik3, Marek Lewicki42, Marek Lewicki13, Yu-Hung Lien16, Miaoyuan Liu23, Giuseppe Gaetano Luciano6, Alain Magnon43, Mohammed Mahmoud44, Sudhir Malik4, Christopher McCabe13, J. W. Mitchell22, Julia Pahl3, Debapriya Pal14, Saurabh Pandey14, Dimitris G. Papazoglou45, Mauro Paternostro46, Bjoern Penning47, Achim Peters3, Marco Prevedelli48, Vishnupriya Puthiya-Veettil49, J. J. Quenby4, Ernst M. Rasel32, Sean Ravenhall9, Jack Ringwood17, Albert Roura50, D. O. Sabulsky8, M. Sameed51, Ben Sauer4, Stefan A. Schäffer52, Stephan Schiller53, Vladimir Schkolnik3, Dennis Schlippert32, Christian Schubert32, Haifa Rejeb Sfar, Armin Shayeghi54, Ian Shipsey9, Carla Signorini24, Yeshpal Singh15, Marcelle Soares-Santos47, Fiodor Sorrentino6, T. J. Sumner4, Konstantinos Tassis14, S. Tentindo55, Guglielmo M. Tino56, Guglielmo M. Tino6, Jonathan N. Tinsley56, James Unwin57, Tristan Valenzuela12, Georgios Vasilakis14, Ville Vaskonen29, Ville Vaskonen13, Christian Vogt58, Alex Webber-Date17, André Wenzlawski59, Patrick Windpassinger59, Marian Woltmann58, Efe Yazgan60, Ming Sheng Zhan60, Xinhao Zou8, Jure Zupan61
Harvard University1, University of Washington2, Humboldt University of Berlin3, Imperial College London4, University of Belgrade5, Istituto Nazionale di Fisica Nucleare6, Technical University of Berlin7, University of Bordeaux8, University of Oxford9, University of Valencia10, University of Strathclyde11, Rutherford Appleton Laboratory12, King's College London13, Foundation for Research & Technology – Hellas14, University of Birmingham15, University College London16, University of Liverpool17, National Physical Laboratory18, University of Nottingham19, University of Sussex20, Fermilab21, Northern Illinois University22, Peking University23, University of Pisa24, University of California, Riverside25, University of Nevada, Reno26, CERN27, University of Niš28, National Institute of Chemical Physics and Biophysics29, Beni-Suef University30, British University in Egypt31, Leibniz University of Hanover32, Paul Sabatier University33, University of Paris34, University of Cambridge35, Wayne State University36, Stanford University37, University of Bergen38, University of Amsterdam39, Northwestern University40, University of Bristol41, University of Warsaw42, University of Illinois at Urbana–Champaign43, Fayoum University44, University of Crete45, Queen's University Belfast46, Brandeis University47, University of Bologna48, Cochin University of Science and Technology49, German Aerospace Center50, University of Manchester51, University of Copenhagen52, University of Düsseldorf53, University of Vienna54, Florida State University55, University of Florence56, University of Illinois at Chicago57, University of Bremen58, University of Mainz59, Chinese Academy of Sciences60, University of Cincinnati61
04 Mar 2020 - EPJ Quantum Technology

Abstract:

We propose in this White Paper a concept for a space experiment using cold atoms to search for ultra-light dark matter, and to detect gravitational waves in the frequency range between the most sensitive ranges of LISA and the terrestrial LIGO/Virgo/KAGRA/INDIGO experiments. This interdisciplinary experiment, called Atomic Ex... We propose in this White Paper a concept for a space experiment using cold atoms to search for ultra-light dark matter, and to detect gravitational waves in the frequency range between the most sensitive ranges of LISA and the terrestrial LIGO/Virgo/KAGRA/INDIGO experiments. This interdisciplinary experiment, called Atomic Experiment for Dark Matter and Gravity Exploration (AEDGE), will also complement other planned searches for dark matter, and exploit synergies with other gravitational wave detectors. We give examples of the extended range of sensitivity to ultra-light dark matter offered by AEDGE, and how its gravitational-wave measurements could explore the assembly of super-massive black holes, first-order phase transitions in the early universe and cosmic strings. AEDGE will be based upon technologies now being developed for terrestrial experiments using cold atoms, and will benefit from the space experience obtained with, e.g., LISA and cold atom experiments in microgravity. read more read less

Topics:

Dark matter (63%)63% related to the paper, Dark energy (58%)58% related to the paper, KAGRA (58%)58% related to the paper, LIGO (56%)56% related to the paper, Gravitational wave (56%)56% related to the paper
View PDF
259 Citations
open accessOpen access Journal Article DOI: 10.1140/EPJQT/S40507-019-0072-0
Engineering cryogenic setups for 100-qubit scale superconducting circuit systems
Sebastian Krinner1, Simon Storz1, Philipp Kurpiers1, Paul Magnard1, Johannes Heinsoo1, Raphael Keller1, J. Lütolf1, Christopher Eichler1, Andreas Wallraff1
ETH Zurich1
28 May 2019 - EPJ Quantum Technology

Abstract:

A robust cryogenic infrastructure in form of a wired, thermally optimized dilution refrigerator is essential for solid-state based quantum processors. Here, we engineer a cryogenic setup, which minimizes passive and active heat loads, while guaranteeing rapid qubit control and readout. We review design criteria for qubit driv... A robust cryogenic infrastructure in form of a wired, thermally optimized dilution refrigerator is essential for solid-state based quantum processors. Here, we engineer a cryogenic setup, which minimizes passive and active heat loads, while guaranteeing rapid qubit control and readout. We review design criteria for qubit drive lines, flux lines, and output lines used in typical experiments with superconducting circuits and describe each type of line in detail. The passive heat load of stainless steel and NbTi coaxial cables and the active load due to signal dissipation are measured, validating our robust and extensible concept for thermal anchoring of attenuators, cables, and other microwave components. Our results are important for managing the heat budget of future large-scale quantum computers based on superconducting circuits. read more read less

Topics:

Qubit (55%)55% related to the paper, Dilution refrigerator (53%)53% related to the paper, Active load (51%)51% related to the paper
View PDF
151 Citations
open accessOpen access Journal Article DOI: 10.1140/EPJQT2
Controlling the dynamic range of a Josephson parametric amplifier
Christopher Eichler1, Andreas Wallraff1
ETH Zurich1
29 Jan 2014 - EPJ Quantum Technology

Abstract:

One of the central challenges in the development of parametric amplifiers is the control of the dynamic range relative to its gain and bandwidth, which typically limits quantum limited amplification to signals which contain only a few photons per inverse bandwidth. Here, we discuss the control of the dynamic range of Josephso... One of the central challenges in the development of parametric amplifiers is the control of the dynamic range relative to its gain and bandwidth, which typically limits quantum limited amplification to signals which contain only a few photons per inverse bandwidth. Here, we discuss the control of the dynamic range of Josephson parametric amplifiers by using Josephson junction arrays. We discuss gain, bandwidth, noise, and dynamic range properties of both a transmission line and a lumped element based parametric amplifier. Based on these investigations we derive useful design criteria, which may find broad application in the development of practical parametric amplifiers. read more read less

Topics:

Amplifier (60%)60% related to the paper, Josephson effect (59%)59% related to the paper, Parametric statistics (56%)56% related to the paper, Parametric oscillator (54%)54% related to the paper, Dynamic range (53%)53% related to the paper
View PDF
149 Citations
open accessOpen access Journal Article DOI: 10.1140/EPJQT10
What is a quantum simulator
T. H. Johnson1, T. H. Johnson2, Stephen R. Clark1, Stephen R. Clark2, Dieter Jaksch2, Dieter Jaksch1
University of Oxford1, National University of Singapore2
23 Jul 2014 - EPJ Quantum Technology

Abstract:

Quantum simulators are devices that actively use quantum effects to answer questions about model systems and, through them, real systems. In this review we expand on this definition by answering several fundamental questions about the nature and use of quantum simulators. Our answers address two important areas. First, the di... Quantum simulators are devices that actively use quantum effects to answer questions about model systems and, through them, real systems. In this review we expand on this definition by answering several fundamental questions about the nature and use of quantum simulators. Our answers address two important areas. First, the difference between an operation termed simulation and another termed computation. This distinction is related to the purpose of an operation, as well as our confidence in and expectation of its accuracy. Second, the threshold between quantum and classical simulations. Throughout, we provide a perspective on the achievements and directions of the field of quantum simulation. PACS Codes: 03.65.-w, 03.67.Ac, 03.67.Lx. read more read less

Topics:

Quantum technology (68%)68% related to the paper, Quantum network (65%)65% related to the paper, Open quantum system (65%)65% related to the paper, Quantum simulator (64%)64% related to the paper, Quantum information (63%)63% related to the paper
View PDF
105 Citations
open accessOpen access Journal Article DOI: 10.1140/epjqt/s40507-022-00138-x
Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe
Christiane P. Koch, Ugo Boscain, Tommaso Calarco, Gunther Dirr, Stefan Filipp, Steffen J. Glaser, Ronnie Kosloff, Simone Montangero, Thomas Schulte-Herbrüggen, Dominique Sugny, Frank K. Wilhelm
20 Jul 2022 - EPJ Quantum Technology

Abstract:

Quantum optimal control, a toolbox for devising and implementing the shapes of external fields that accomplish given tasks in the operation of a quantum device in the best way possible, has evolved into one of the cornerstones for enabling quantum technologies. The last few years have seen a rapid evolution and expansion of t... Quantum optimal control, a toolbox for devising and implementing the shapes of external fields that accomplish given tasks in the operation of a quantum device in the best way possible, has evolved into one of the cornerstones for enabling quantum technologies. The last few years have seen a rapid evolution and expansion of the field. We review here recent progress in our understanding of the controllability of open quantum systems and in the development and application of quantum control techniques to quantum technologies. We also address key challenges and sketch a roadmap for future developments. read more read less

Topics:

Physics (100%)100% related to the paper, Controllability (61%)61% related to the paper, Quantum technology (55%)55% related to the paper, Sketch (53%)53% related to the paper, Quantum (52%)52% related to the paper
View PDF
102 Citations
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Frequently asked questions

1. Can I write EPJ Quantum Technology in LaTeX?

Absolutely not! Our tool has been designed to help you focus on writing. You can write your entire paper as per the EPJ Quantum Technology guidelines and auto format it.

2. Do you follow the EPJ Quantum Technology guidelines?

Yes, the template is compliant with the EPJ Quantum Technology guidelines. Our experts at SciSpace ensure that. If there are any changes to the journal's guidelines, we'll change our algorithm accordingly.

3. Can I cite my article in multiple styles in EPJ Quantum Technology?

Of course! We support all the top citation styles, such as APA style, MLA style, Vancouver style, Harvard style, and Chicago style. For example, when you write your paper and hit autoformat, our system will automatically update your article as per the EPJ Quantum Technology citation style.

4. Can I use the EPJ Quantum Technology templates for free?

Sign up for our free trial, and you'll be able to use all our features for seven days. You'll see how helpful they are and how inexpensive they are compared to other options, Especially for EPJ Quantum Technology.

5. Can I use a manuscript in EPJ Quantum Technology that I have written in MS Word?

Yes. You can choose the right template, copy-paste the contents from the word document, and click on auto-format. Once you're done, you'll have a publish-ready paper EPJ Quantum Technology that you can download at the end.

6. How long does it usually take you to format my papers in EPJ Quantum Technology?

It only takes a matter of seconds to edit your manuscript. Besides that, our intuitive editor saves you from writing and formatting it in EPJ Quantum Technology.

7. Where can I find the template for the EPJ Quantum Technology?

It is possible to find the Word template for any journal on Google. However, why use a template when you can write your entire manuscript on SciSpace , auto format it as per EPJ Quantum Technology's guidelines and download the same in Word, PDF and LaTeX formats? Give us a try!.

8. Can I reformat my paper to fit the EPJ Quantum Technology's guidelines?

Of course! You can do this using our intuitive editor. It's very easy. If you need help, our support team is always ready to assist you.

9. EPJ Quantum Technology an online tool or is there a desktop version?

SciSpace's EPJ Quantum Technology is currently available as an online tool. We're developing a desktop version, too. You can request (or upvote) any features that you think would be helpful for you and other researchers in the "feature request" section of your account once you've signed up with us.

10. I cannot find my template in your gallery. Can you create it for me like EPJ Quantum Technology?

Sure. You can request any template and we'll have it setup within a few days. You can find the request box in Journal Gallery on the right side bar under the heading, "Couldn't find the format you were looking for like EPJ Quantum Technology?”

11. What is the output that I would get after using EPJ Quantum Technology?

After writing your paper autoformatting in EPJ Quantum Technology, you can download it in multiple formats, viz., PDF, Docx, and LaTeX.

12. Is EPJ Quantum Technology's impact factor high enough that I should try publishing my article there?

To be honest, the answer is no. The impact factor is one of the many elements that determine the quality of a journal. Few of these factors include review board, rejection rates, frequency of inclusion in indexes, and Eigenfactor. You need to assess all these factors before you make your final call.

13. What is Sherpa RoMEO Archiving Policy for EPJ Quantum Technology?

SHERPA/RoMEO Database

We extracted this data from Sherpa Romeo to help researchers understand the access level of this journal in accordance with the Sherpa Romeo Archiving Policy for EPJ Quantum Technology. The table below indicates the level of access a journal has as per Sherpa Romeo's archiving policy.

RoMEO Colour Archiving policy
Green Can archive pre-print and post-print or publisher's version/PDF
Blue Can archive post-print (ie final draft post-refereeing) or publisher's version/PDF
Yellow Can archive pre-print (ie pre-refereeing)
White Archiving not formally supported
FYI:
  1. Pre-prints as being the version of the paper before peer review and
  2. Post-prints as being the version of the paper after peer-review, with revisions having been made.

14. What are the most common citation types In EPJ Quantum Technology?

The 5 most common citation types in order of usage for EPJ Quantum Technology are:.

S. No. Citation Style Type
1. Author Year
2. Numbered
3. Numbered (Superscripted)
4. Author Year (Cited Pages)
5. Footnote

15. How do I submit my article to the EPJ Quantum Technology?

It is possible to find the Word template for any journal on Google. However, why use a template when you can write your entire manuscript on SciSpace , auto format it as per EPJ Quantum Technology's guidelines and download the same in Word, PDF and LaTeX formats? Give us a try!.

16. Can I download EPJ Quantum Technology in Endnote format?

Yes, SciSpace provides this functionality. After signing up, you would need to import your existing references from Word or Bib file to SciSpace. Then SciSpace would allow you to download your references in EPJ Quantum Technology Endnote style according to Elsevier guidelines.

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