I started a Twitter account in 2010, during my first year of graduate school, because I was told I needed to. Not by my graduate program, but by the Society for Neuroscience (SfN). I had just been accepted to be an official “neuro-blogger” for the SfN conference – an annual gathering that draws over 30,000 attendees. The requirements for outreach were minimal: at least one blog post per day during the conference, preferably within our assigned “theme”. Additional postings were encouraged and Twitter accounts were mandatory. 

Thomas Edison has an impressive 2,332 worldwide patents. Some of his well-known inventions include the phonograph, motion pictures, and the magnetic iron ore separator. After the success of his first major invention, the quadruplex telegraph, Edison wanted to build his own laboratory so that he could continue to innovate. In 1875, he purchased around 34 acres in Raritan Township, NJ and built the "Invention Factory". By Spring 1876, the Invention Factory consisted of a main laboratory, ancillary buildings, a carpenters’ shop, carbon shed, and blacksmith shop. His first breakthrough at the Invention Factory, the phonograph, produced the first voice recording (“Mary Had a Little Lamb”) and earned Edison the title, “The Wizard of Menlo Park”.

When I first read the question for this essay competition, I immediately associated the word 'social' with the word 'personal', i.e. outside of work. Social media is becoming an important source of primary information about the lives of ordinary people like you and me. But I am wary.

Last Thursday, September 22nd, we held our 5th New York open science meetup (#opensciencenyc). Science journalists, Columbia faculty members, and enthusiasts from our open science meetup group came out to hear Dr. Stuart Firestein talk about ignorance in scientific research and why it is necessary and valuable (yes, you read that right).

Social media is generally discouraged in science today. A recent article, "I'm a serious academic, not a professional Instagrammer" castigated scholars with active online social lives. Most advisors won't ask you to "tweet out our paper" or "write a blog post about our findings" and it's likely that you'd close Twitter or Reddit if your colleague or advisor walked by. Some conferences have taken it so far as to enforce a "no tweeting" policy. But social networking is here to stay and will likely become even more integrated into our lives and research.

A new eraFall marks a new era for Authorea. Summer was already very eventful -- 8,200+ custom journal templates, increased rendering speed, dictionary support for new languages, improved article metadata, better import and export functionality, and many more improvements (see our product roadmap). Fall is going to be even more eventful! We are launching a modern design and an improved rich-text editor! Our editor "rewrite" marks the culmination of months of work and it is the biggest project we've undertaken since founding Authorea. We hope you'll like it.We'll be rolling out the new Editor to all our users over the next few weeks after our private beta test. You'll get a message very soon with a link to opt-in. Here are some of the updates we think you’ll find exciting:A modern new lookIt took a long time but we finally have a dashing new look: familiar and easy to use like most modern word processors, and at the same time perfectly tailored for the writing needs of researchers. And this is just the beginning. We will continue improving your reading and writing experience.

Open science is many things to many people. It's a movement for advocating for better research, it's a method to perform better research, and to some it's an ideal that may or may not be achievable.  Wikipedia, an open encyclopedia, defines it as , "the movement to make scientific research, data and dissemination accessible to all levels of an inquiring society, amateur or professional." Where did the term come from? When was it first used and how does Authorea fit into open science?

Peer review is arguably necessary for effective communication amongst researchers.  Authors, editors, and the public rely on peer review to ensure a first measure of trust in scientific communication.  While peer review is considered to be integral in scholarly communication by most, its shortcomings are becoming evident. Former editor of JAMA and NEJM Drummond Rennie once said, "if peer review was a drug it would never be allowed onto the market." Is this true? Does peer review, as it is done today, cause more harm than good?

When you're reinventing the research article you will continually need to be reinventing yourself. That's what we've been doing over the last few months, reinventing one of our core features -- our editor.Today, we're happy to announce that we are inviting researchers to a private test of our new editor. We created a new editor because we listened to our users, and we're going to make it even better by listening to our users once again. If you're interested in joining our private beta please send us an email at [email protected]. We will be limiting our trial to 100 users and will be selecting researchers from a diverse set of backgrounds.We're very excited to share what we're working on with our users. Here's to a better research writing experience -- here's to the future. 

Retraction Watch is a blog that tracks retractions in science -- and it's probably a site you never want your research to be on. To many, retracting your work means that you've committed fraud, and in most cases can be the end of a researcher's career. However, that's not always the case: in fact, retracting your work for the right reasons can even be good for your career and good for science (Lu 2013). Retraction Watch highlights cases where scientists did not retract their work due to fraud, but rather because it was "the right thing."  Here we take the opportunity to further highlight these pieces and the courageous scientists that did the right thing despite an enormous stigma.We believe the future of scholarly communication will be more dynamic than it is today. By definition, this will require more corrections and retractions.  Authorea was built to show the full history of a document, from creation to final publication. We allow annotations of the literature and believe that a more dynamic and robust form of communication is the future -- it's what we're building. Join us!

How researchers communicate with one another and the world has changed very little over the last 350 years. Attempts to improve the process have been implemented throughout the years, not all of which have been to the benefit of research. Here we highlight some policies implemented by various publishers that we believe are antithetical to research communication and what we're doing to try to fix them.

Peer review is arguably necessary for effective communication amongst researchers.  Authors, editors, and the public rely on peer review to ensure a first measure of trust in scientific communication.  While peer review is considered to be integral in scholarly communication by most, its shortcomings are becoming evident. Former editor of JAMA and NEJM Drummond Rennie once said, "if peer review was a drug it would never be allowed onto the market." Is this true? Does peer review, as it is done today, cause more harm than good?

The Ingelfinger rule is a policy started by Franz Ingelfinger in 1969 (Definition of Sole C....). Franz, the editor of The New England Journal of Medicine at the time, implemented the policy in order to protect the originality of the journal's publications-- and in effect created arguably one of the most important barriers to open science and preprints today.

The web was built specifically to share research papers amongst scientists. Despite this being the first goal of the modern web, most research is still published behind a paywall. We have recently highlighted famous math papers that reside behind a paywall as well as ten papers that have achieved a near rockstar status in research and the public. Here we systematically look at the top one hundred cited papers of all time and find that 65% of these papers are not open. Stated another way, THE WORLD’S MOST IMPORTANT RESEARCH IS INACCESSIBLE FROM THE MAJORITY OF THE WORLD. A few facts about the top 100 cited papers: 1. The weighted average of all the paywalls is: $32.33, rounding to the nearest cent. 2. There are 1, 088, 779 citations of the Open Access articles, so, if they cost the same on average as the Paywalled articles and were paid for individually, they would cost a total of: $35, 199, 108.44–that’s 14 Bugatti Veyrons, or enough to buy everyone in New York City a Starbucks Tall coffee and chocolate chip cookie. In comparison, the total amount for the paywalled articles, assuming everyone bought the paywalled articles individually, is $54, 722, 252.80. 3. That’s 23 Bugatti Veyrons, or enough to buy everyone in New York City a footlong from Subway. 4. Although 65% of the most cited papers are paywalled, only 61% of those paper’s citations are from paywalled journals. Thus the open access articles in this list are, on average, cited more than the paywalled ones.

PYTHAGORAS’ THEOREM a² + b² = c² _Pythagoras, 530 BC_ -------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- ------------------------------ --------- LOGARITHMS logxy = logx + logy _John Napier, 1610_ CALCULUS $ f}{ t} = {h}$ _Newton, 1668_ LAW OF GRAVITY $F = G {r^2}$ _Newton, 1687_ THE SQUARE ROOT OF MINUS ONE i² = −1 _Euler, 1750_ EULER’S FORMULA FOR POLYHEDRA V − E + F = 2 _Euler, 1751_ NORMAL DISTRIBUTION $\psi(x) = {} e^{2~\rho^2}$ _C. F. Gauss, 1810_ WAVE EQUATION ${\partial t^2} = c^2 {\partial x^2}$ _J. D‘Ambert, 1746_ FOURIER TRANSFORM f(ω)=∫−∞∞f(x)e−2 π i x ωdx _J. Fourier, 1822_ NAVIER-STOKES EQUATION $\rho \left ( }{\partial t} + \cdot \nabla \right ) = - \nabla p + \nabla \cdot T + f$ _C. Navier, G. Stokes, 1845_ MAXWELL’S EQUATIONS ∇ ⋅ E = 0 _J. C. Maxwell, 1865_ $\nabla \times E = - {e} {\partial t}$ ∇ ⋅ H = 0 $\nabla \times H = {e} {\partial t}$ SECOND LAW OF THERMODYNAMICS dS ≥ 0 _L. Boltzmann, 1874_ PAYWALL RELATIVITY E = mc² _Einstein, 1905_ PAYWALL SCHRÖDINGER’S EQUATION $ \hbar {\partial t} \psi = H \psi$ _E. Schrödinger, 1927_ PAYWALL INFORMATION THEORY H = −∑p(x)logp(x) _C. Shannon, 1949_ PAYWALL CHAOS THEORY xt + 1 = k xt(1 − xt) _Robert May, 1975_ PAYWALL BLACK-SCHOLES EQUATION ${2} \sigma^2 S^2 {\partial S^2} + r S {\partial S} + {\partial t} - r V = 0$ _F. Black, M. Scholes, 1990_ PAYWALL EULER’S TRANSFORMATION $^\infty (-1)^n a_n = ^\infty (-1)^n {2^{n+1}}$ _Euler, 1755_ PAYWALL RUSSELL’S PARADOX Let R = {x ∣ x ∉ x}, then R ∈ R ⇔ R ∉ R _Russell, 1902_ GÖDEL’S INCOMPLETENESS THEOREM G(x):=¬Prov(sub(x, x)) ⇒ PA ⊢ G(⌜G⌝) ↔ ¬Prov(⌜G(⌜G⌝)⌝) _Gödel, 1931_

What better way to argue for the benefits of open access than to publish a research paper with restricted access rights? While open access has been shown to be beneficial for researchers and the public by numerous studies (some of which are listed below), these same papers make it pretty self-evident that the move to full open access is going to take some time. It is true that more and more open access articles appear each year -- some predict that the volume of open access publications will overtake subscription publications by 2018 -- yet despite the increase in publishers and researchers adopting open access as a modus operandi, paywalls still remain on the vast majority of articles, including many which tout the benefits of open research. The following is a list of articles that while advocating for open research remain, ironically, behind paywalls:

Some research findings have permeated all parts of our culture -- so much so that we often take the actual ideas and access to them for granted. Would you believe that Einstein's "Does the Inertia of a Body Depend Upon Its Energy Content?" remains behind a paywall, despite being more than 100 years old? Here we show 10 famous papers that have achieved a similar "rockstar" status in the public imagination yet are still subject to paywalls. At Authorea, we believe that open communication is the key to advancing research. We're working every day to make it possible for researchers to have full control over their work and its dissemination. 

The 2016 Olympics have captivated the world -- records are breaking, medal counts are climbing, and nationalism is roaring! It's all very exciting. It should get even more exciting in Tokyo in four years time at the 2020 games when several new sports are scheduled to be introduced, including surfing, skateboarding, and... research! Okay, research definitely won't be included, but what if it were? How would each country fare? Here we look at research output vs. Olympic prowess on a per-country basis.