View Future GrowthHadron Energy 過去の業績過去 基準チェック /06Hadron Energyの収益は年平均-214.3%で減少しているが、Electrical業界はgrowingで16.9%年平均の収益となった。主要情報-214.35%収益成長率-186.57%EPS成長率Electrical 業界の成長9.91%収益成長率n/a株主資本利益率n/aネット・マージンn/a前回の決算情報31 Mar 2026最近の業績更新更新なしすべての更新を表示Recent updatesお知らせ • Jun 26Hadron Energy, Inc. Appoints Brian Arnholt as Director of Reactor SystemsHadron Energy, Inc. announced that Brian Arnholt is appointed as Director of Reactor Systems. Brian Arnholt leads reactor systems engineering for the Halo MMR, bringing three decades of nuclear leadership across first-of-a-kind design, development, and licensing. Most recently he served as a Senior Consultant in digital modernization at Sargent & Lundy and was an I&C consultant to TerraPower’s Natrium project. He spent nearly a decade at NuScale Power as Engineering Manager and Principal Engineer for Instrumentation & Controls, where he authored the I&C content of the NuScale Design Certification Application and helped secure U.S. NRC approval of the design’s I&C systems, a milestone for small modular reactor licensing. Earlier, he served as Director of I&C & Simulation for Babcock & Wilcox’s Generation mPower SMR venture, led plant control systems engineering at General Electric, and held reactor engineering and operations supervisor roles at Exelon, including Senior Reactor Operator license training. He holds a B.S. in Nuclear Engineering (cum laude) from the University of Michigan and is a published author on SMR I&C design and licensing.お知らせ • Jun 16Hadron Energy Announces Publication of Its First U.S. Patent Application for the Integral Architecture Behind the Halo Micro-Modular ReactorHadron Energy, Inc. announced that the United States Patent and Trademark Office (USPTO) published the Company’s first patent application, “Micro Integral Nuclear Reactor” (Publication No. US 2026/0128185 A1), on May 7, 2026. The application is the foundational technical disclosure behind Hadron’s flagship Halo Micro-Modular Reactor (MMR) and the first entry in the Company’s growing intellectual property portfolio. Filed October 31, 2025 and claiming priority to a November 1, 2024 provisional application, it names Samuel Gibson and Ross Ridenoure among its inventors, alongside Christopher R. Neal and Andrew M. Ward. Hadron Energy's 10 MWe Halo MMR integrates the reactor core, steam generator, pressurizer, and primary coolant system in a single transportable pressure vessel, the architecture at the heart of the Company's first published U.S. patent application. The application describes the integral pressurized-water architecture at the heart of the 10 MWe Halo MMR, in which the reactor core, steam generator, pressurizer, and primary coolant system are housed within a single reactor pressure vessel. By integrating the primary system inside one vessel, the design eliminates the large-bore external piping found in conventional plants — simplifying transport and assembly and, as described, removing the potential for a large-break loss-of-coolant accident from the design basis. The application discloses a reactor producing thermal output in the range of 6 to 60 megawatts-thermal and electrical output of 2 to 20 megawatts-electric, of which the Halo’s 10 MWe configuration is the Company’s lead design. The application further describes a transportable, factory-fabricated pressure vessel formed from segments joined by circumferential flanges, enabling a sealed, tested reactor to ship by conventional road or air transport — along with passive safety provisions that, in described embodiments, maintain core cooling without alternating-current power for an extended period under design-basis conditions. The Halo is fueled by Low-Enriched Uranium Plus (LEU+), supporting a multi-year fuel cycle while relying on an established, domestically supported fuel supply chain rather than experimental materials. The publication follows the recent NRC staff acceptance of Hadron’s Quality Assurance Program Description and the Company’s submission of its Principal Design Criteria white paper to the NRC, part of a coordinated effort to advance the Halo MMR through licensing. Together, these milestones reflect Hadron’s aspiration to become the first company to bring a licensed light-water microreactor to market and to establish a defensible technology position.収支内訳Hadron Energy の稼ぎ方とお金の使い方。LTMベースの直近の報告された収益に基づく。収益と収入の歴史NasdaqCM:HDRN 収益、費用、利益 ( )USD Millions日付収益収益G+A経費研究開発費31 Mar 260-5881331 Dec 250-72611質の高い収益: HDRNは現在利益が出ていません。利益率の向上: HDRNは現在利益が出ていません。フリー・キャッシュフローと収益の比較過去の収益成長分析収益動向: HDRNは株式公開されてから 3 年未満しか経っていないため、過去 5 年間の前年比収益成長率がプラスであったかどうかを判断できません。成長の加速: HDRNの過去 1 年間の収益成長を 5 年間の平均と比較することはできません。現在は利益が出ていないためです。収益対業界: HDRNは利益が出ていないため、過去 1 年間の収益成長をElectrical業界 ( 23.1% ) と比較することは困難です。株主資本利益率高いROE: HDRNの負債は資産を上回っているため、自己資本利益率を計算することは困難です。総資産利益率使用総資本利益率過去の好業績企業の発掘7D1Y7D1Y7D1YCapital-goods 、過去の業績が好調な企業。View Financial Health企業分析と財務データの現状データ最終更新日(UTC時間)企業分析2026/07/13 04:26終値2026/07/10 00:00収益2026/03/31年間収益2025/12/31データソース企業分析に使用したデータはS&P Global Market Intelligence LLC のものです。本レポートを作成するための分析モデルでは、以下のデータを使用しています。データは正規化されているため、ソースが利用可能になるまでに時間がかかる場合があります。パッケージデータタイムフレーム米国ソース例会社財務10年損益計算書キャッシュ・フロー計算書貸借対照表SECフォーム10-KSECフォーム10-Qアナリストのコンセンサス予想+プラス3年予想財務アナリストの目標株価アナリストリサーチレポートBlue Matrix市場価格30年株価配当、分割、措置ICEマーケットデータSECフォームS-1所有権10年トップ株主インサイダー取引SECフォーム4SECフォーム13Dマネジメント10年リーダーシップ・チーム取締役会SECフォーム10-KSECフォームDEF 14A主な進展10年会社からのお知らせSECフォーム8-K* 米国証券を対象とした例であり、非米国証券については、同等の規制書式および情報源を使用。特に断りのない限り、すべての財務データは1年ごとの期間に基づいていますが、四半期ごとに更新されます。これは、TTM(Trailing Twelve Month)またはLTM(Last Twelve Month)データとして知られています。詳細はこちら。分析モデルとスノーフレークこのレポートを生成するために使用した分析モデルの詳細は、当社の Github ページ でご覧いただけます。また、レポートの使い方に関する ガイド や YouTube の チュートリアル もご用意しています。シンプリー・ウォールストリート分析モデルを設計・構築した世界トップクラスのチームについてご紹介します。業界およびセクターの指標私たちの業界とセクションの指標は、Simply Wall Stによって6時間ごとに計算されます。アナリスト筋Hadron Energy, Inc. 0 これらのアナリストのうち、弊社レポートのインプットとして使用した売上高または利益の予想を提出したのは、 。アナリストの投稿は一日中更新されます。0
お知らせ • Jun 26Hadron Energy, Inc. Appoints Brian Arnholt as Director of Reactor SystemsHadron Energy, Inc. announced that Brian Arnholt is appointed as Director of Reactor Systems. Brian Arnholt leads reactor systems engineering for the Halo MMR, bringing three decades of nuclear leadership across first-of-a-kind design, development, and licensing. Most recently he served as a Senior Consultant in digital modernization at Sargent & Lundy and was an I&C consultant to TerraPower’s Natrium project. He spent nearly a decade at NuScale Power as Engineering Manager and Principal Engineer for Instrumentation & Controls, where he authored the I&C content of the NuScale Design Certification Application and helped secure U.S. NRC approval of the design’s I&C systems, a milestone for small modular reactor licensing. Earlier, he served as Director of I&C & Simulation for Babcock & Wilcox’s Generation mPower SMR venture, led plant control systems engineering at General Electric, and held reactor engineering and operations supervisor roles at Exelon, including Senior Reactor Operator license training. He holds a B.S. in Nuclear Engineering (cum laude) from the University of Michigan and is a published author on SMR I&C design and licensing.
お知らせ • Jun 16Hadron Energy Announces Publication of Its First U.S. Patent Application for the Integral Architecture Behind the Halo Micro-Modular ReactorHadron Energy, Inc. announced that the United States Patent and Trademark Office (USPTO) published the Company’s first patent application, “Micro Integral Nuclear Reactor” (Publication No. US 2026/0128185 A1), on May 7, 2026. The application is the foundational technical disclosure behind Hadron’s flagship Halo Micro-Modular Reactor (MMR) and the first entry in the Company’s growing intellectual property portfolio. Filed October 31, 2025 and claiming priority to a November 1, 2024 provisional application, it names Samuel Gibson and Ross Ridenoure among its inventors, alongside Christopher R. Neal and Andrew M. Ward. Hadron Energy's 10 MWe Halo MMR integrates the reactor core, steam generator, pressurizer, and primary coolant system in a single transportable pressure vessel, the architecture at the heart of the Company's first published U.S. patent application. The application describes the integral pressurized-water architecture at the heart of the 10 MWe Halo MMR, in which the reactor core, steam generator, pressurizer, and primary coolant system are housed within a single reactor pressure vessel. By integrating the primary system inside one vessel, the design eliminates the large-bore external piping found in conventional plants — simplifying transport and assembly and, as described, removing the potential for a large-break loss-of-coolant accident from the design basis. The application discloses a reactor producing thermal output in the range of 6 to 60 megawatts-thermal and electrical output of 2 to 20 megawatts-electric, of which the Halo’s 10 MWe configuration is the Company’s lead design. The application further describes a transportable, factory-fabricated pressure vessel formed from segments joined by circumferential flanges, enabling a sealed, tested reactor to ship by conventional road or air transport — along with passive safety provisions that, in described embodiments, maintain core cooling without alternating-current power for an extended period under design-basis conditions. The Halo is fueled by Low-Enriched Uranium Plus (LEU+), supporting a multi-year fuel cycle while relying on an established, domestically supported fuel supply chain rather than experimental materials. The publication follows the recent NRC staff acceptance of Hadron’s Quality Assurance Program Description and the Company’s submission of its Principal Design Criteria white paper to the NRC, part of a coordinated effort to advance the Halo MMR through licensing. Together, these milestones reflect Hadron’s aspiration to become the first company to bring a licensed light-water microreactor to market and to establish a defensible technology position.