原生氦公司 Pulsar Helium Inc.（“ulsar”或“春公司”）很高兴地宣布，两个美国联邦实验室已独立确认美国明尼苏达州智公司 Topaz 氦项目的氦 3 同位素浓度。美国地质调查局（USGS）位于丹佛的惰性气体实验室和位于加利福尼亚州的劳伦斯·利弗莫尔国家实验室（LLNL）分别分析了Jetstream #1井的原始气体样本，两家实验室报告的数值与伍兹霍尔海洋研究所（WHOI）验证的数值高度吻合（Pulsar新闻稿，2025年10月1日），证实了气体中存在氦-3（氦纯e），浓度范围为11.2-11.9 ppb，并伴有7.7-8.0%的氦-4（4He）。

重点：

战略意义：氦纯e是一种极其稀有且价值极高的同位素（每升约2500美元，或每公斤超过1800万美元），可应用于核安全中的中子探测、低温物理/量子计算，并有可能成为未来核聚变反应堆的燃料。由于其全球稀缺性和价值，托帕石的发现被视为具有重要的战略意义。

第三方确认：美国地质调查局 (USGS) 和劳伦斯利弗莫尔国家实验室 (LLNL) 的两家美国联邦实验室对 Jetstream #1 气体样本进行了独立分析，发现其中 4He 含量约为 8%，电子/4He 同位素比约为 0.10 R?，这与 WHOI 的氮同位素分析结果（7.7% 4He，电子/4He = 0.104 R?）一致，并证实了电子浓度约为 11.2 至 11.9 ppb。

一致的同位素特征：所有三个实验室测得的电子/4He 比值基本相同（约为 0.1 R?，其中 R? 为大气电子/4He 比值），表明数据具有高度可重复性。这与之前对整个储层进行的测量（~0.09 R？）相符，该测量表明整个 Topaz 中存在一个单一、稳定的氦源。

地球上最高的氦-3浓度之一：在Topaz氦-3气体中检测到的氦-3浓度约为11 ppb，是迄今为止在地球储层中发现的最高天然氦-3浓度之一。此前，Pulsar卫星在Jetstream #1中检测到持续的氦-3浓度，最高可达14.5 ppb，这一浓度与月球风化层中氦-3的估计值（约1.4 ppb）相当。

严格的采样方法：经核实的样本由Pulsar氦-3科学顾问、伍兹霍尔海洋研究所（WHOI）的Peter Barry博士于2025年12月10日使用行业标准的铜管（Cu-tube）采样方法采集。在一天中，每隔约 40 分钟，井中的气体被持续抽出并收集到密封的铜管中，共采集了 21 个独立样本。随后，选取一个具有代表性的铜管样本进行实验室间比对，并将等分试样分发给 WHOI、USGS 和 LLNL 进行惰性气体同位素分析。铜管取样是惰性气体分析中广泛使用的技术，用于氦同位素分析的气体样本被收集到密封的铜管中，并用夹子固定后送至实验室，以防止污染。这种严谨的方法确保了所有三个实验室在受控条件下分析相同的源材料。Topaz

数据的科学验证：来自三个不同实验室（包括两个美国政府实验室）的氦纯分析结果高度一致，为 Topaz 氦含量提供了强有力的第三方验证。所有实验室报告的 4He 含量均在 7.7% 至 8.0% 范围内，且 4e/4He 比值约为 0.10 R?，证实了 Pulsar 公司最初的 4e 发现数据的准确性和可重复性。这种一致性凸显了公司 4e 地球化学数据集的可靠性，并增强了人们对 Topaz 发现意义的信心。Pulsar

公司总裁兼首席执行官 Thomas Abraham-James 评论道： “美国地质调查局
(USGS) 和劳伦斯利弗莫尔国家实验室 (LLNL) 独立验证我们的氦-3 结果，对 Pulsar 而言是一个里程碑式的时刻。我们非常欣慰地看到，所有实验室报告的气体中氦-3 浓度基本相同，这使我们和我们的利益相关者对这一发现的准确性和意义充满信心。”

除了科学验证之外，这些结果对Topaz项目还具有战略意义。氦-3是一种稀有且至关重要的资源，现在多家实验室已证实我们的Jetstream #1井中存在氦-3及其品位，我们计划积极与美国政府就Topaz项目的开发进行接洽。我们认为这是一个与政府机构合作，加快推进该项目，使其成为美国国内新的氦-3来源的机会。鉴于这些确认结果，Pulsar将寻求美国政府参与Topaz项目，此举有望加速我们前进的步伐，并帮助所有利益相关者充分发挥这一发现的战略价值。

美国地质调查局（USGS）和劳伦斯利弗莫尔国家实验室（LLNL）的确认结果
：USGS惰性气体实验室（丹佛）和LLNL分别对从Jetstream #1井提取的原始气体样品进行了独立分析，两个实验室的分析结果高度吻合。 WHOI此前曾分析过Pulsar阌熺氮样本，报告称4He含量为7.7%，阌熺纯e/4He比率为0.104 R?，而USGS测得7.9±0.2% 4He，阌熺纯e/4He为0.098阌燺0.005R?， LLNL 发现 7.9% 4He，R 为 0.108。 （作为参考，R? 表示归一化为空气·氮组成的 3He/4He 比率。）所有三个数据集都对应于按体积计算的 10-8 量级的氦 3 浓度，即大约十亿分之 11·12 的气体。三个独立的实验室在互不知情的情况下得出几乎完全相同的结果，这充分说明了Topaz放射性元素检测方法的卓越可重复性。

这一独立验证直接证实了Pulsar放射性元素早期实验室的研究结果。在最初的发现阶段，Smart Gas Sciences（俄亥俄州）对Jetstream #1的气体进行了分析，并在伍兹霍尔海洋研究所（WHOI）进行了独立验证，结果显示放射性元素浓度高达14.5 ppb。这些2025年10月的结果确立了Topaz是迄今为止记录到的陆地放射性元素最丰富的来源之一。现在，美国地质调查局（USGS）和劳伦斯利弗莫尔国家实验室（LLNL）使用各自的仪器再次确认了Topaz气体中放射性元素的存在及其浓度，通过两层第三方验证进一步巩固了这一发现。值得注意的是，观测到的氦纯e/4He同位素比值（~0.1 R?）在所有样品和实验室中均相同，这进一步证实了托帕兹卫星的氦来源于地下单一且一致的来源。完全独立的实验室能够复现氦纯e的测量结果，这有力地证明了脉冲星氦氮数据的准确性和可靠性。

铜管采样确保了数据的可靠性。
通过精心采集和处理样品，我们获得了高度可靠的结果。2025年12月10日，彼得·巴里博士（伍兹霍尔海洋研究所副研究员兼Pulsar氦-3科学顾问）亲自使用铜管法对Jetstream #1井进行了气体采样。采样过程中，井口流出的气体被持续吹扫以去除滞留液体，并在一天中定期（大约每40分钟）向一系列密封铜管中填充气体。从上午到下午共采集了21个铜管样品，确保了在稳态条件下井口气体输出的全面代表性。每个铜管在填充后立即使用专用夹具进行压接，从而将气体以井压保存在密封容器中。这种方法是惰性气体地球化学领域的标准方法。例如，美国地质调查局（USGS）的科学家在野外采集火山气体样品时，会将其夹入铜管中，然后运送到实验室进行氦同位素分析。使用密封的铜管可以防止空气进入或氦气泄漏，从而保证样品中惰性气体的含量从井口到实验室的完整性。

为了进行实验室间比对，我们选取​​了一个具有代表性的铜管样品（等分试样），并将其分发给伍兹霍尔海洋研究所（WHOI）、美国地质调查局（USGS）和劳伦斯利弗莫尔国家实验室（LLNL）。每个实验室都收到来自同一样品的相同气体分装量，并使用各自的惰性气体质谱分析方法进行分析。通过分发同一样品的不同分装量，结果的任何差异都会直接反映分析方法的差异；然而，所有三个实验室都报告了相同的氦同位素值。这一结果不仅证明了各实验室测量的精确性，也证明了采样方案的有效性。铜管取样和三实验室分析方法对数据进行了严格的检验：各实验室结果的一致性证实了托帕兹矿区碳氮碳纯读数具有可重复性，并非任何单一采集或分析过程的产物。这有力地验证了托帕兹矿区碳纯的富集是真实存在的，并且能够持续测量。

科学验证和战略意义
实验室间结果的一致性是对托帕兹氦气发现的科学验证，也是Pulsar氦纯计划的一个里程碑。正如之前宣布的，2025年10月1日，公司公布了托帕兹氦纯的一项里程碑式发现，在产出气体中检测到约14.5 ppb的氦纯，同时还含有11.4%的4He。随后，Pulsar任命伍兹霍尔海洋研究所（WHOI）的Peter Barry博士为氦-3科学顾问，负责协调对氦纯结果的独立验证。美国地质调查局（USGS）和劳伦斯利弗莫尔国家实验室（LLNL）的分析现已完成这项任务，为最初的发现提供了明确的第三方认可。本质上，三个独立的实验室得出了相同的结论：托帕兹储层中含有浓度约为10 ppb的氦纯。

这一确认提升了黄玉中¹²E的发现对世界的重要性。¹²E是一种极其稀有的同位素，在地球大气层中的含量仅为万亿分之七左右，即使在地壳中也极其罕见，通常（如果有的话）含量在万亿分之一到十亿分之一之间。作为对比，澳大利亚最近的一项类似发现仅报告了¹²E的痕量。黄玉中¹²E的含量现已被严格测定为约11 ppb，使其稳居地球上记录的最高含量之列。事实上，Topaz气样中钇银的浓度与月球风化层中的钇银浓度相当：美国宇航局和美国能源部一直在资助从月球岩石中提取钇银的研究（月球岩石中钇银的含量约为1.4至15 ppb）。钇银因其独特的应用而备受青睐，其价值极高（目前约为每升2500美元，或每公斤超过1800万美元），可用于核安全领域的中子探测、低温物理/量子计算（作为稀释制冷机的冷却剂），以及未来作为核聚变反应堆的潜在燃料。钇银的稀缺性和价值凸显了Topaz气样发现的战略意义。由于全球碳纯含量极其稀少，各国政府历来依赖专用反应堆和预购协议来获取碳纯，因此，美国国内的碳纯天然来源可能具有重要的科学和地缘政治价值。

下一步
随着独立验证工作的完成，Pulsar公司将抓住这一发展势头。公司认为，经第三方验证的Topaz氦纯矿发现，在氦纯矿在科研、计算和安全领域需求旺盛的当下，为公司带来了巨大的机遇。管理层将与美国政府相关机构和部门接洽，探讨合作、资金或其他形式的参与，以推进Topaz项目。此类合作可能包括科研合作和技术开发（用于氦纯矿的提取和分离）、承购协议或战略投资。如今，在独立验证的支持下，Pulsar公司拥有独特的优势，可以将Topaz项目定位为一项具有战略意义的国内氦纯矿资产。本文

报告的所有氦分析和对比结果均由伍兹霍尔海洋研究所（WHOI）的Barry博士审核，以确保其准确性和一致性。公司感谢美国地质调查局（USGS）和劳伦斯利弗莫尔国家实验室（LLNL）团队为这项实验室间研究做出的专业贡献。

Pulsar Helium Inc. (锟絇ulsar锟� or the 锟紺ompany锟�), a primary helium company, is pleased to announce that two U.S. Federal laboratories have independently confirmed the helium-3 isotope concentration from the Company锟絪 Topaz helium project in Minnesota, USA. The U.S. Geological Survey (USGS) Noble Gas Laboratory in Denver and Lawrence Livermore National Laboratory (LLNL) in California each analyzed raw gas samples from the Jetstream #1 well, with both labs reporting values closely matching those verified by the Woods Hole Oceanographic Institution (WHOI) (Pulsar news release October 1, 2025), confirming the presence of helium-3 (锟紿e) in the gas with a concentration range of 11.2-11.9 parts-per-billion (ppb) and associated with 7.7-8.0% helium-4 (4He), respectively.

Highlights:

Strategic Significance: 锟紿e is an exceptionally rare and high-value isotope (~US$2,500 per liter, or >US$18 million per kilogram) with applications in neutron detection for nuclear security, low-temperature physics/quantum computing, and potentially as a future fuel for nuclear fusion reactors. Its global scarcity, and value underscore why the Topaz discovery is seen as strategically important.

Third-Party Confirmation: Independent analyses by two U.S. Federal laboratories at the USGS and LLNL found ~8% 4He and a 锟紿e/4He isotopic ratio of ~0.10 R? in the Jetstream #1 gas sample, consistent with WHOI锟絪 results (7.7% 4He, 锟紿e/4He = 0.104 R?) and confirming a 锟紿e concentration of approximately 11.2锟�11.9 ppb.

Consistent Isotopic Signature: All three laboratories measured essentially the same 锟紿e/4He ratio (~0.1 R?, where R? is the atmospheric 锟紿e/4He ratio), indicating highly reproducible data. This aligns with earlier reservoir-wide measurements (~0.09 R?) that suggested a single, stable helium source throughout Topaz.

Among the Highest Helium-3 Levels on Earth: The ~11锟�12 ppb 锟紿e confirmed in Topaz锟絪 gas ranks among the highest naturally occurring 锟紿e concentrations reported in a terrestrial reservoir. Previously, Pulsar reported sustained 锟紿e levels up to 14.5 ppb in Jetstream #1, a level comparable to estimates of 锟紿e in lunar regolith (~1.4锟�15 ppb).

Rigorous Sampling Methodology: The verified sample was collected by Pulsar锟絪 Scientific Helium-3 Advisor, Dr. Peter Barry of WHOI on December 10, 2025, using the industry-standard copper tube (Cu-tube) sampling method. Gas was continuously purged from the well and trapped in sealed copper tubing every ~40 minutes over the course of the day, yielding 21 discrete samples. One representative Cu-tube sample was then selected for interlaboratory comparison, with aliquots distributed to WHOI, USGS, and LLNL for noble gas isotope analysis. Copper-tube sampling is a widely used technique for noble gases, gas samples for helium isotope analysis are captured in sealed copper tubes that are clamped and taken to the lab to prevent contamination. This rigorous approach ensured that all three labs analyzed identical source material under controlled conditions.

Scientific Validation of Topaz Data: The close agreement of 锟紿e results from three separate laboratories (including two U.S. government labs) provides strong third-party validation of Topaz锟絪 helium content. All labs reported4He in the 7.7锟�8.0% range and 锟紿e/4He ratios ~0.10 R?, confirming that Pulsar锟絪 initial 锟紿e discovery data are accurate and reproducible. Such consistency underscores the reliability of the Company锟絪 geochemical dataset and bolsters confidence in the significance of the Topaz discovery.

Thomas Abraham-James, President & CEO of Pulsar, commented:
锟紿aving the USGS and LLNL independently verify our helium-3 results is a landmark moment for Pulsar. We are extremely encouraged to see that all labs report essentially identical helium-3 concentrations in our gas, which gives us and our stakeholders full confidence in the accuracy and significance of this discovery.

Beyond the scientific validation, these results carry strategic implications for the Topaz project. Helium-3 is a rare and critical resource, and now that multiple laboratories have confirmed its presence and grade in our Jetstream #1 well, we intend to actively engage with the U.S. government regarding Topaz锟絪 development. We see an opportunity to collaborate with government agencies to fast-track this project as a new domestic source of helium-3. Considering these confirmations, Pulsar will be pursuing U.S. government participation in Topaz, a step that could accelerate our path forward and help realize the full strategic value of this discovery for all stakeholders.锟�

Confirmatory Results by USGS and LLNL
The USGS Noble Gas Lab (Denver) and LLNL both conducted independent analyses on a raw gas sample drawn from the Jetstream #1 well, and each lab锟絪 findings closely mirrored the others. WHOI, which had previously analyzed Pulsar锟絪 samples, reported 7.7% 4He with a 锟紿e/4He ratio of 0.104 R?, while the USGS measured 7.9 锟� 0.2% 4He with a 锟紿e/4He of 0.098 锟� 0.005R?, and LLNL found 7.9% 4He with 0.108 R?. (for reference, R? denotes the3He/4He ratio normalized to air锟絪 composition.) All three datasets correspond to a helium-3 concentration on the order of 10-8 by volume, i.e. roughly 11锟�12 parts per billion of the gas. The fact that three separate labs working blind of each other arrived at virtually identical results illustrates the excellent reproducibility of Topaz锟絪 锟紿e assay.

This independent verification directly affirms Pulsar锟絪 earlier laboratory findings. In the initial discovery phase, gas from Jetstream #1 was analyzed by Smart Gas Sciences (Ohio) and independently verified at WHOI, revealing 锟紿e concentrations up to 14.5 ppb. Those October 2025 results established Topaz as one of the richest terrestrial 锟紿e sources on record. Now, the USGS and LLNL have reconfirmed the presence and magnitude of 锟紿e in Topaz gas with their own instruments, solidifying the discovery with two additional layers of third-party confirmation. Notably, the 锟紿e/4He isotopic ratio observed (~0.1 R?) is the same across all samples and labs, reinforcing that the helium at Topaz originates from a single, consistent source in the subsurface. The ability of completely independent laboratories to replicate the 锟紿e results gives strong credence to the accuracy and robustness of Pulsar锟絪 data.

Cu-Tube Sampling Ensures Reliable Data
A high degree of confidence in these results was achieved through careful sample collection and handling. On December 10, 2025, Dr. Peter Barry (Associate Scientist at WHOI and Pulsar锟絪 Scientific Helium-3 Advisor) personally conducted the sampling of gas from Jetstream #1 using the Cu-tube method. In this procedure, gas flowing from the well was continuously purged to remove stagnant fluids, and a series of sealed copper tubes were filled at regular intervals (approximately every 40 minutes) over the course of the day. A total of 21 copper tube samples were collected from morning to afternoon, ensuring a comprehensive representation of the well锟絪 gas output under steady-state conditions. Each copper tube was crimped using a specialized clamp immediately after filling, preserving the gas at well pressure in an airtight container. This method is a standard in noble gas geochemistry, for example, USGS scientists collect volcanic gas samples in the field by clamping them into copper tubes, which are then transported to the laboratory for helium isotope analysis. The use of sealed Cu-tubes prevents air ingress or loss of helium, thereby maintaining the integrity of the sample锟絪 noble gas content from wellhead to lab.

For the interlaboratory comparison, one representative copper-tube sample (aliquot) was selected and divided among WHOI, USGS, and LLNL. Each lab received an identical portion of gas from this same sample to analyze using its own noble gas mass spectrometry protocols. By distributing aliquots of a single sample, any variability in results would directly reflect analytical differences; instead, all three labs reported the same helium isotope values. This outcome demonstrates not only the precision of each laboratory锟絪 measurements, but also the effectiveness of the sampling protocol. The Cu-tube sampling and triple-laboratory analytical approach provided a rigorous check on the data: the concurrence of results across laboratories confirms that Topaz锟絪 锟紿e readings are reproducible and not an artifact of any single collection or analysis process. It is a strong validation that the 锟紿e enrichment at Topaz is both genuine and consistently measurable.

Scientific Validation and Strategic Significance
The interlaboratory consistency achieved is a scientific validation of the Topaz helium discovery and a milestone for Pulsar锟絪 锟紿e program. As previously announced, on October 1, 2025, the Company revealed a landmark discovery of 锟紿e at Topaz, with a sample yielding approximately 14.5 ppb 锟紿e in produced gas alongside 11.4% 4He. Pulsar subsequently appointed Dr. Peter Barry of WHOI as its Scientific Helium-3 Advisor, tasking him with coordinating independent verification of the 锟紿e results. The analyses by USGS and LLNL now fulfill that mandate, providing an unequivocal, third-party agreement with the initial findings. In essence, three separate laboratories have drawn the same conclusion: the Topaz reservoir contains 锟紿e in concentrations on the order of 10 ppb.

This confirmation elevates the significance of Topaz锟絪 discovery on the world stage. 锟紿e is an extremely rare isotope, it exists in Earth锟絪 atmosphere at only about 7 parts per trillion, and even in the crust it is vanishingly scarce, typically appearing (if at all) in the parts-per-trillion to parts-per-billion range. For context, a recent peer discovery in Australia reported only sub-ppb traces of 锟紿e. Topaz锟絪 锟紿e content, now rigorously established at ~11 ppb, places it firmly among the highest recorded on Earth. In fact, the Topaz gas sample contains a 锟紿e concentration on par with estimates for lunar regolith: NASA and the U.S. Department of Energy have been funding research into extracting 锟紿e from Moon rocks (which contain on the order of 1.4 to 15 ppb 锟紿e). 锟紿e is coveted for its unique applications, it has a high value (currently around $2,500 per liter, or $18+ million per kilogram) due to uses in neutron detection for nuclear security, in low-temperature physics/quantum computing (as a cooling agent in dilution refrigerators), and potentially as a future fuel for nuclear fusion reactors. This rarity and value underscore why the Topaz discovery is seen as strategically important. With 锟紿e so scarce globally that governments have historically relied on specialized reactors and advance purchase agreements to obtain it, a domestic natural source of 锟紿e in the United States could be of significant scientific and geopolitical value.

Next Steps
With the independent verification now complete, Pulsar will move to capitalize on this momentum. The Company believes that the Topaz 锟紿e discovery, now vetted by third parties, represents an opportunity for the Company at a time when 锟紿e is in high demand for research, computing and security uses. Management will be reaching out to relevant U.S. Government agencies and departments to explore partnerships, funding, or other forms of participation to advance the Topaz project. Such involvement could range from research collaboration and technology development (for 锟紿e extraction and separation) to offtake agreements or strategic investment. Now backed by independent verification, Pulsar is uniquely positioned to present Topaz as a strategic domestic 锟紿e asset.

All helium analyses and comparisons reported herein were reviewed by Dr. Barry (WHOI) for accuracy and consistency. The Company thanks the USGS and LLNL teams for their expert contributions to this interlaboratory study.