Gary Sharpe - IR and Corporate Communications Seth Grae - Chief Executive Officer Linda Zwobota - Chief Financial Officer.
Analysts:.
Welcome to the Lightbridge Corporation 2015 Second Quarter Business Update Conference Call. My name is Christine and I will be your operator for today. At this time, all participants are in a listen-only mode. Later, we will conduct a question-and-answer session. I will now turn the call over to Mr. Gary Sharpe of Lightbridge you may begin..
Thank you, Christine, and good morning and welcome to the conference call for Lightbridge’s 2015 second quarter business update. Our news release was distributed after the market close on Wednesday and can be viewed on the Investor Relations page of the Lightbridge Web site at ltbridge.com.
We also filed the company’s Form 10-Q with the Securities and Exchange Commission. Seth Grae, our CEO, will lead today’s call. In addition, the following executives are available to answer your questions, CFO, Linda Zwobota; and Andrey Mushakov, Lightbridge’s Executive Vice President for International Nuclear Operations.
You know I must tell you that today's presentation includes forward-looking statements about the company’s competitive position and product and service offerings. During the course of today’s call, words such as expect, anticipate, believe, and intend will be used in our discussion goals or events in the future.
The presentation is based on our current expectations and involves certain risks and uncertainties that may cause actual results to differ significantly from those estimates. These and other risks are discussed in more detail in our filings with the SEC.
And of course Lightbridge does not assume any obligation to update or revise these forward-looking statements whether as a result of new developments or otherwise. You can participate in today's calls two ways.
First, you may submit questions for management in writing to ir@ltbridge.com and if you have already submitted a question and we've got several, we thank you. You can submit them at anytime during the prepared remarks or during the Q&A period. After prepared remarks, telephones lines will be open for live questions.
Now without anything further here is Lightbridge CEO, Seth Grae..
Thank you, Gary. Good morning, everyone.
I'd like to take a moment to comment on how far we've come in a few short years in an industry where progress is typically measured in decades, not months or years, and yet we have demonstrated the nuclear fuel we have invented and patented is safer, increases power output, lowers cost, enhances economics and reduces waste without overhauling the existing industry infrastructure.
In a nutshell we believe there is no reason why utilities will not adapt to our fuel.
This is best evidenced by the fact that four of the leading North American utilities which collectively represent about 50% of all nuclear power production in the United States have publicly expressed interest in our technology, formally requesting the NRC to review our patented metallic fuel design.
These four utilities represent about 50% of the U.S. nuclear market and even if we assume just 25% penetration of the U.S. market and if we completely exclude the global market potential, we could still generate $150 million to $200 million per year of revenue at 90% gross margin from licensing our patents.
You can see why we are so excited about the market potential for this game changing technology. I'd also like to note that the EPA this month released its new rule called the clean power plant.
I'll talk more about this later in the call, but suffice it to say, under the new rule increased nuclear power production from power uprates or capacity increases at existing plants will now account as zero carbon sources in meeting the stricter state requirements making such projects more valuable.
The fact is the industry has just about maxed out capacity in its existing plants and short of building new reactors the only way to significantly increase nuclear power production in existing power plants is by upgrading to Lightbridge's metallic fuel which can offer meaningful power uprates and longer fuel cycles in order to benefit under the new state mandates.
So turning to our progress in 2015 we achieved major milestones in four strategic areas; one, nuclear utility support with regulators, two, patents protection; three, fuel sample fabrication, and four, fuel sample radiation. In the case of utility customer interest in Lightbridge fuel we delivered well ahead of our target date.
During the second quarter as I mentioned four major U.S. utilities sent a formal request to the Nuclear Regulatory Commission asking the commission to prepare to review Lightbridge's fuel design in advance of a planned 2017 application to use our fuel in a U.S. commercial reactor as early as 2020.
The utilities told the NRC that Lightbridge fuel can significantly improve safety and fuel cycle economics of nuclear power plants. We had expected this essential utility communication to the NRC in early 2016 and we're exceptionally pleased when this pivotal milestone was delivered nearly one year sooner than we expected.
The importance of this milestone cannot be overstated. For those of you who are new to the commercial nuclear energy sector the NRC relies on communications from utilities to adjust staffing levels and budgets in anticipation of regulatory activity.
A federal law in place since 1990 requires about 90% of the commission's budget to come from fees charged to those regulated by the agency. For fiscal year 2015 the NRC is operating on a budget of nearly $1.1 billion and employs about 3,900 inspectors, technical experts and others.
The NRC’s proposed fiscal 2016 budget and staffing reflect reductions of about 3% and 4% respectively. These funding realities and the related process underscore the importance of customer support in regulatory reviews.
Potential end users of Lightbridge fuel recognize and value the independently validated benefits which include, first, 10% to 30% more power resulting in increased revenue and improved profit margins; second, lower average fuel operating temperatures compared to conventional nuclear fuel contributing to dramatic safety improvements; and third, lower total levelized cost per megawatt hour resulting in increased competitiveness of nuclear power versus combined cycle natural gas or renewable energy sources.
Let me clarify this point. We can produce incremental power at lower cost than natural gas even at the historical lows we’ve see in the gas market, even traditional nuclear can't compete with Lightbridge fuel on prices at these levels and we can generate base load energy without the CO2 emissions or price volatility of natural gas.
The four utilities I mentioned earlier have also pledged ongoing support and counsel to Lightbridge and NRC regulatory licensing activities. We expect to restart discussions with the NRC later in 2015 to prepare for regulatory review and approval of lead test assembly operation of our metallic fuel in the U.S. commercial reactor.
Simply nuclear utilities want the improved fuel performance benefits of using Lightbridge fuel.
There is sufficient economic upside that enables utilities to pay for these benefits and still earn an attractive return on investments and they want the industry’s essential regulatory agency to have ample time to prepare for a review of a licensing application so our fuel can be ready for commercial use as soon as possible.
Moving on to patents protection. During the second quarter Lightbridge was granted a key patent covering the company’s multi low metallic fuel rod design and fuel assemblies by South Korea’s intellectual property office. The patent expands international protection of our proprietary fuel technology.
This new patent is an important milestone because Korea represents a significant potential market for Lightbridge metallic fuel. The nation operates 24 commercial reactors and has an additional eight reactors under construction or planned by 2035. Korea also is an active supporter of nuclear reactors to emerging markets.
In 2014 Lightbridge was issued the key patent to our fuel design in the United States the world’s largest market for pressurized water reactors and Australia. We also secured patents in China and South Korea for Russian VVER type reactors.
The company has pending patent application through variations of Lightbridge fuel in Canada for CANDU reactors as well as pending applications in India, Japan and Europe.
Let’s shift to fuel fabrication where negotiations have advanced to the final stage on a comprehensive agreement with Canadian Nuclear Laboratories or CNL for fabrication of Lightbridge fuel samples at CNL’s Chalk River Ontario facilities.
The agreement will be the last key contract for critical path work scope relating to research reactor irradiation of our fuel under commercial reactor operating conditions. We intend to develop a fabrication plant in 2015 and to begin two phases of fabrication in 2016 at CNL.
The first fabrication phase will involve manufacturing prototype fuel rods using depleted uranium. The second phase will entail fabrication of irradiation fuel samples using enriched uranium for deliveries to the Halden research reactor in Norway.
In the fourth strategic area, of fuel technology development and commercialization efforts, during the second quarter we signed a binding 10 year services agreement with the Institute for Energy Technology, operator of the Halden research reactor, southeast of Olso, Norway.
Beginning in 2017, we expect to commence full irradiation of our fuel samples under prototypic commercial reactor operating conditions in a pressurized loop of the Halden reactor. Post-irradiation examination of partially irradiated fuel samples is also planned to begin at Halden in 2018. We believe these test results will serve two purposes.
First, the analysis will generate crucial data required for regulatory approvals of Lightbridge fuel by the NRC in the United States as well as the regulatory authorities in other countries.
In addition, these results will inform and bolster our position and negotiation on a potential commercial arrangement with a major fuel fabricator or development partner.
Such a collaboration could entail a technology licensing deal where Lightbridge would receive up front technology access fees, milestone progress payments and our ongoing royalty fees from the sale of each fuel assembly with Lightbridge designed metallic fuel rods.
Alternatively, the collaboration could entail a cost sharing arrangement whereby development partner makes cash or in time contribution toward our fuel development program. Other types of commercial arrangements are also possible.
Our ultimate goal from such a deal is to have lead test assemblies and subsequently core re-loads with Lightbridge design metallic fuel manufactured and sold by fuel fabricators to end users, nuclear utilities operating commercial nuclear power plants worldwide.
We've held meetings with large nuclear fuel fabricators with the goal of putting a [teaming] arrangement in place in 2017 or 2018. We've been encouraged by our progress in the area. It is possible that an arrangement could be finalized sooner than expected.
Lightbridge's progress in 2015 comes at a time of renewed and growing global awareness of nuclear energies reliability, 24/7 availability and efficiency as well as its potential to mitigate the negative effects of carbon dioxide emissions from burning fossil fuels. In Japan, nuclear power plants are restarting after a hiatus of four years.
The Japanese government plans to use nuclear power for about 22% of the nation's electricity needs by 2013 and to reduce CO2 emissions by 26% from 2013 levels.
Japan's nuclear restart stands as a case study that supports increased use of commercial nuclear energy while Japan's reactors were shutdown, its fossil fuel imports increased by $40 billion per year and its trade deficit ballooned by $134 billion in fiscal year 2013.
Electricity generation costs are up about 60% and Japanese utilities collectively lost about $10 billion per year.
[Pepco] has spent more than $21 billion on extra fossil fuels over the past four years and having just two of Japan's 43 nuclear plants online will save the utility $121 million per month according to reports by the World Nuclear Association. Japan's three reactors under construction and plans to add as many as 12 new reactors to its fleet by 2030.
As I mentioned earlier, growing attention to nuclear energy policy has been driven by the U.S. environment of protection agencies clean power plant, which was published in early August. The plan is to reduce greenhouse gas emissions where fossil fuels fired power plants by 32% from 2005 levels by 2030.
The plan favors wind and solar renewable energy but also allows credit for renewed nuclear power plants and power uprates are increasing efficiencies at existing nuclear power plants. We believe that the latter will provide additional support for our fuel making it even more economically attractive to power utilities.
States are charged with making plans to achieve national goals by September 2016. Nuclear energy policy will be a major agenda item in December in Paris at the 21st session of the Conference of the Parties to the United Nations Framework Convention on Climate Change or COP 21. Nearly 40,000 delegates are expected to attend.
Stakes are high; the conference goal is to arrive at a universal legally rebinding agreement that enables nations to combat climate change effectively and to accelerate the transition towards resilient low [carving] in economies.
The agreement will enter into force in 2020, the same year we are targeting for the first piece of Lightbridge fuel and a commercial reactor in the United States. Participating countries must publish their national plans as soon as possible and before COP 21 starts this December. Momentum is building throughout the commercial nuclear energy industry.
Lightbridge fuel remains well positioned domestically and internationally from more progress in 2015.
We believe both the company and our industry are poised to realize sustainable long term growth realizing that growth spell increased value for Lightbridge shareholders, improving operating economics and safety profiles for nuclear utilities and ultimately a healthier planet for all of us.
Now here is Lightbridge's Chief Financial Officer, Linda Zwobota to summarize the company’s financial results for the quarter..
Thank you, Seth. The company's financial statement for quarter and six months ended June 30, 2015 are on filed with the SEC and are also available through the investor relations section of the Lightbridge website. In the interest of time I won't repeat all of these details now.
However if you have questions about any aspect of our financial statement I would be happy to respond during the Q&A portion of the call. I want to highlight our progress and reducing general and administrative expenses in 2015.
The Lightbridge team is carefully managing G&A expenses and reducing overhead where appropriate and we're also maintaining a solid balance sheet with no long term debt. Every facet of corporate operations has been examined and where possible renegotiated to trend expenses and increased efficiency.
Year to date the company's cash flows used in operating activities were $1.8 million down approximately 33% from $2.6 million in the same period last year. Most of the reduction in our cash burn rate came from significant cost to our corporate overhead.
The primary objective of the current expense management program is to free up cash for research and development activities and to further company's need to raise additional equity capital.
We believe that our previously disclosed aftermarket sales program or ATM gives us flexibility to raise new capital opportunistically at a lower cost and reduce dilutions compared to registered direct offering. We have authorized sales of up to $0.5 million in shares depending on market condition.
Year to date we have not sold any shares of Lightbridge common stock under the ATM which was put in place during the second quarter. We will provide regular quarterly update on the program going forward. The ATM program is just one element of our plan to secure new or additional sources of capital over the next 12 months.
As Seth mentioned earlier our efforts are advancing on potential teaming agreement and other strategic transactions. This concludes my summary. I will be available for questions during the next segment of today's presentation. And Seth back to you..
Thanks Linda. Let's open the call to everyone's questions now. In addition to asking live questions by telephone, you can also submit questions in writing to ir@ltbridge.com. We will pause while Christine reviews the procedures for asking live questions..
Thank you. [Operator Instruction].
And while we're waiting for any live questions by phone Gary Sharpe who is in charge of our Investor Relations will proceed with any questions coming in via e-mail again at ir@ltbridge.com, Gary..
Thanks, Seth, and there are numerous questions that have come in via the e-mail channel. First one we'll start with this one that comes from an investor in San Diego.
He is asking with the current valuation of Lightbridge and its compelling technology, what is stopping its strategic investors from stepping up now? Do industry insiders and strategic really need to wait until 2017 for data from fabrication and irradiation operations?.
Well, I think that more goes to the terms of what a deal would be.
Once we have, starting in 2017, actual data of how Lightbridge fuel is performing under commercial operating condition in that reactor in Halden in Norway and we think we're going have a much more compelling case, as you know we are working with major strategic parties including four of the largest nuclear utilities in the United States already not as investors but as advising us and helping us in many ways including what the Nuclear Regulatory Commission as well as with the fuel design to making sure the design brings the benefits they need.
So what we said earlier was that while we expect a strategic transaction in 2017 or 2018 it could come sooner which is what the caller is really pointing to, it depends on exactly what the terms are as we said these could include upfront technology access fees, milestone progress payments, ongoing royalty fees.
So there is a lot that could happen quite a bit sooner than 2017 but we also think we’ll be in much stronger negotiating position than -- and it could be phased, you could have a deal earlier with one strategic partner and then lead to deals in other parts of the world or different types of reactors with others.
Next question?.
The follow up to that question is, would such a partnership or any partnership or any partnership be exclusive and would that or could that constrain your efforts to license your fuel for fabrication later?.
No, we would not have a totally exclusively deal which will be like acquiring the company. If you see the company as really having its future value tied into our nuclear fuel technology IP. What we could have could be for limited times or limited geographies or limited types of reactors for certain periods to give a first mover advantage to someone.
So you could see a country in some continent somewhere in the world for a certain period of time getting exclusivity, something like that.
There are some markets that are dominated by a few players and if you don’t deal with them it’s hard to get into those in markets like Russia dominated by Russian government controlled companies, South Korea dominated by South Korean government controlled companies, France dominated by French government controlled companies and some others around the world, although for the most part it is free market in nuclear there are countries like that, different countries like that it would make sense to really penetrate those markets broadly to deal with those entities.
But generally we’re looking to be a non-exclusive licensor for the world market.
Okay, the next question?.
Now, that you had time to study the EPA clean power plant, can you offer any additional insights or information in this initiative and how it helps or might hinder Lightbridge?.
We like to think we follow pretty closely what’s happening in Washington but we had no idea what that clean power plant would say until it was published recently and it was a surprise.
What was very interesting is that the plant basically takes existing non-CO2 emitting generation like nuclear reactors and hydroelectric dams and wind and solar and so okay, that’s where they are now and any new ones added or increased power to those will count for the states as new non-emitting generation.
So the existing nuclear generation from 99 operating reactors in the country gets no credit under the plan which the nuclear industry didn’t like but in a sense makes sense if that’s your framework that you’re going for new electricity [new avenues] [ph] to be non-emitting.
Now there are five new reactors under construction in the country and those specifically under the plan remain as the new rector that will count or those state Tennessee and South Carolina and Georgia for those state’s plans under the EPA’s clean power rule for non-emitting CO2.
So those plants in a sense are more valuable than they were a month ago because now they get these carbon credits for the state in a sense. But the biggest part of the plant, the only other part of the plant relating to nuclear is that power output increases from reactors also count fully.
So if you do a 10% power uprates you’re taking 1100 megawatt reactor and add 10% more electricity and other 110 megawatts of electricity coming out of that plant that counts fully under the plant.
And because the reactors are pretty much done everything they can to squeeze more power out of them already everything they can do short of changing to a new fuel this has left Lightbridge as really the only game in town for how can you do a material uprate to the nations reactors and get credit for under the clean power plant.
So when we first read the plan we were sort of jokingly at the office calling it the Lightbridge rules or the Lightbridge act and it’s incredible that it's so specifically targeted toward increasing power at existing plants and that’s what we designed our fuel to do, and we just don’t see any other way it can be done in any material way.
So we’re very positive on the clean power plant. We also see it very much is in line what other countries around the world are doing and giving credit to power uprates for new reactors and I think it’s good for the nuclear power industry, I think it’s good for reducing CO2 emissions, but I think it’s mostly good for Lightbridge. .
Okay. The next question on the queue, it says Lightbridge metallic fuel has been -- you framed it as the only meaningful way for utilities to achieve uprates in their reactors.
Can you elaborate on the competition, the other methods, and why they don’t meet the Lightbridge test?.
Utilities have upgraded all sorts of power plants forever, hydroelectric dam get a little more efficient by tweaking turbines, some of which are almost 100 years old, coal plants have gotten more efficient at burning coal, natural gas plants have -- and most of these are done in the same way that they've done for reactors which is outside the fuel, outside what's called a nuclear island, a coal plant and nuclear plant are very similar.
The heating up of water and making steam, spinning the turbine and its making that stuff outside the nuclear area more efficient.
So, reactors have been upgrading their turbines, upgrading their steam generators, improving the efficiency of the steam path this sort of thing and they're basically tapped out on the ability to do that, virtually anything that could be done has been done and anything less to do is kind of expensive given the benefit you get of a power uprate, so I'm sure you'll see some 1%, 2% maybe 3% power uprates at some reactors with some stuff left to do sort of incrementally more expensive to get that last 1%, 2% or 3% efficiency squeezed out of operating the turbine or something, but with Lightbridge's fuel just by changing the fuel, in addition to the safety and all the other benefits, you can get a 10% power uprate and again also increase from an 18 months fuel cycle to a 24 month fuel cycle.
So the reactor is selling electricity more days per year on top of the 10% power uprate or we can do a 17% power uprate at existing reactors without lengthening the fuel cycle, but keeping it at the current 18 months, 17% or for new build reactors where you are building with a bigger turbine, bigger steam generator et cetera to match the bigger power output.
We can do over a 30% power uprate, so you can build three reactors and get the power for -- so these are massive, huge power uprates at a 10% power uprate which is what [seen in the] study -- studied in the report on our website on the Lightbridge value proposition, think of it as you can upgrade 10 reactors in the U.S.
by 10% [each] and get the equivalent of a whole new reactor and because the capital cost of doing that is so low, it's why we say the incremental cost of adding all that electricity with Lightbridge fuel turns out to be much less than if you add in natural gas or built in a new gas plant or a coal plant, it the lowest cost way to do it, because nothing can match our power uprates for reactors.
.
All right.
The next question, how does the current status of the 123 agreement with Norway affect Lightbridge?.
The Atomic Energy Act of 1954 as amended here in the United States is a pretty long act, to give you a sense of how long it is, we're dealing with exception 123 of that act which deals with cooperation in civil nuclear power with other countries.
And under section 123 of the Atomic Energy Act of 1954 to these certain types of activities in other countries, there has to be an agreement in place pursuant to this section, they are [indiscernible] known in the industry as 123 agreements or nuclear cooperation agreements.
The United States has these agreements with every country in the world in which we collaborating in civil nuclear, they generally last about 30 years, they vary a bit and when they expire new ones get negotiated that for the most part tend not to be controversial and go through pretty quickly because they intend to be pretty similar terms to what's already been agreed to an acted on by both countries for decades.
So, the one with Norway has recently expired the new version has been agreed to we understand by both countries will be submitted to Congress later this year or early next year, Congress does not have to vote to approve it but to kill it will take a vote by both houses of Congress to disapprove it, that the President would veto and there -- the Congress could override the veto, but the fact is that out of 435 members of the house and 100 members of the senate, they are none of them who say that they'll oppose the Norway 123 agreement.
So this is about a sure thing as ever happened in Washington. To give you an idea, the 123 agreement with China recently went through Congress through being in force now without being -- having any serious objections and it's now I force.
So, I just can't see Norway of all countries having a problem in Congress, also our work in Norway will happen over a 10 year period.
And it's not until several years into it that we start hitting the provisions under which you need a 123 agreement, initially we're operating under something else which is under [rigs] of the Atomic Energy Act at the Department of Energy 12 CFR, Code of Federal Regulations Part 810, so that’s even longer than the Atomic Energy Act that deals with nuclear export license [segment] authorization and will be operating under Part 810 authorization, are operating under Part 810 for what we do now.
So it's a very long answer to say that by next year there will be a new 123 agreement with Norway, there is nothing that’s going to stop that. There is no opposition in either country to it. And it will be years in any evet before we even need a 123 agreement for our work in Norway.
So other than this one question kind of surprisingly bringing up this very interesting slight detail that I don't think will ever really become an issue for anybody. I don’t think we'll be hearing about 123 agreement with Norway ever being an issue again. .
So I hear the follow up question that relates to our earlier discussion of potential teaming arrangements or partnerships asking would a teaming agreement preclude the need for additional Lightbridge equity issuances?.
It could, as you know we've been very careful with equity issuances in dilutions for the history of the company. Since we became publicly traded in 2006 and enlisted on the NASDAQ in 2009 we've only had three registered directs spaced years apart.
We never had debt and we brought in over half of our operating capital through margins on our own consulting work. The three registered directs add up to about $20 million in equity funding that we brought in since after becoming public in 2006 and we've made about $56 million of consulting revenue and more than 40% gross margin overall.
So it's almost like having a debt equity ratio when a company never has had debt and still doesn’t. So we've raised since less than half the equity funding you might expect a company like ours to need to. We've also undergone a really substantive attack on all cost in the company in holding down all cost.
And as Linda said, we have an ATM arrangement in phase and at the market arrangement where we could sell stock out into the market, we have not used it, we might at times.
We haven’t yet, we have the ability to raise capital that way one if we want to, but one balance and maybe entering into a teaming arrangement or a partnership early would be not necessarily cash, cash is always good.
But in kind what a partner would do and pay for meaning that we won't have to, which in a sense is better than cash if you have a major global company doing work itself in cooperation for Lightbridge. So we'll see how that goes.
As we said we're definitely planning on having at least one major teaming arrangement or partnership with a major global company in 2017 or 2018. But based on discussions we're having that could end up being quite a bit sooner. .
We’ve got a question regarding the ATM initiative, the question is asking do the terms of the ATM means that the company would have multiple issuances of up to $0.5 million or that the entire ATM program is kept at $0.5 million in sale of shares?.
Under NASDAQ and SAC limits were capped at a $0.5 million until December 1 of this year, upon which we can raise under the ATM. So if we were to use it at a time or times between now and December 1st which we're not doing today, we're not doing tomorrow and we haven’t yet. But if we were, we could use it as many times as we wanted.
As long as in the aggregate we did not sell more than $0.5 million worth of stock, I think the actual number is $478,000 which meant is not a year. And as of December 1st those limits go up quite a bit under the NASDAQ limits.
So the short answer is capped at that dollar amount collectively until December 1st and then we could continue issue stop periodically after that at much higher levels in the millions of dollars per year if we wanted to and if the market conditions were right. .
Next question Saudi Arabia has agreed with the French to build four nuclear power stations in the near future, have you contacted either party to see sale incorporate your fuel design in their reactors?.
Well news reports may have said that Saudi Arabia has contracted with the French to build four reactors but Saudi Arabia has not in fact contracted with the French to build four reactors and is not in fact contract with anyone to build reactors.
There are periodic reports for many countries of rumors of building reactors in Saudi Arabia and none of which is actually been ordered, although there is a lot of talk and I believe Saudi Arabia is very serious and will go forward with a larger reactor or there could be large numbers of reactors perhaps much larger than four from one vendor or perhaps orders from several vendors of smaller numbers from each vendor, perhaps at different sites around the country.
The French are actively involved as one of the major nuclear reactor countries of the world, the second largest fleet of reactors after the United States in the French are very active around Europe and UK and in China and around the world building reactors, so I’m sure France definitely is very active in Saudi Arabia but they don’t have it in order.
The question that we have in contact with Saudi Arabia and we’ve been in contact with the French yes, we’ve been in contact with both. .
[Operator Instructions].
Linda, Andrey just so you know that I have not received any additional email questions..
Okay.
Let’s ask Christine, do you have any additional questions by phone?.
I’m showing no questions at this time. .
Okay. Thank you very much. I want to thank everybody for joining us on the call. It’s a very exciting time for Lightbridge. We hope you share optimism for Lightbridge’s improving position and expanding global nuclear power market and the opportunities to serve that market with our fuel.
As always until the next conference call our lines are always open at IR at ltbridge.com and 1571-730-1213. Thank you for your questions. And thank you for your interest, and good bye..
Thank you. And thank you ladies and gentlemen, this concludes today’s conference. Thank you for participating. You may now disconnect..