View ValuationDeep Fission 将来の成長Future 基準チェック /06現在、 Deep Fissionの成長と収益を予測するのに十分なアナリストの調査がありません。主要情報n/a収益成長率n/aEPS成長率Renewable Energy 収益成長26.2%収益成長率n/a将来の株主資本利益率n/aアナリストカバレッジNone最終更新日n/a今後の成長に関する最新情報更新なしすべての更新を表示Recent updatesお知らせ • Jul 07Deep Fission Announces Arrival Of Prototype Reactor Canister At Parsons Kansas SiteDeep Fission, Inc. announced the arrival of its prototype reactor canister at its Parsons, Kansas site, marking a key milestone in the Company’s Proof-of-Concept Well program and its Gravity Nuclear Reactor™ development. The factory-built prototype canister completed fabrication, hydrostatic testing, and delivery to Kansas, representing tangible progress toward validating installation, infrastructure readiness, and operational sequencing for the Company’s first commercial demonstration well. Upcoming testing using this hardware will validate the approach and provide valuable learnings as key systems are assembled, installed and tested under non-nuclear conditions in a large diameter borehole. The Proof-of-Concept Well is Deep Fission’s nearly full-scale validation program, designed to demonstrate a larger-diameter borehole and end-to-end installation workflow using commercial-grade, non-nuclear components prior to fuel loading. The program is intended to validate each stage of underground deployment under real-world conditions while confirming engineering assumptions at scale and supporting the Company’s broader commercialization timeline. The reactor canister is a key component of Deep Fission’s Gravity Nuclear Reactor™ design, which places a small modular pressurized water reactor in a borehole approximately one mile underground. The Gravity Reactor™ is based on established pressurized water reactor technology adapted for subsurface deployment, using pressure from a mile-long water column atop and surrounding the reactor in the borehole, to support operating pressure and cooling. In this design, thermal energy is transferred through a closed-loop system from the reactor canister to a heat exchanger, then rises to the surface in a secondary closed-loop for conversion into electricity, like a geothermal system. Following arrival at the Parsons site, the non-nuclear prototype reactor canister will be prepared for testing as Deep Fission continues preparation for its large diameter drilling program. The Company is advancing permitting with the Kansas Department of Health and Environment (KDHE) for the non-nuclear borehole, which is expected to serve as the next major proof-of-concept milestone. The Company is also progressing development of its full-scale nuclear demonstration borehole and advancing design of its primary heat exchanger. These parallel efforts support a phased strategy to accelerate iterative validation of the most unique aspects of Deep Fission’s commercial deployment model. Deep Fission is participating in the U.S. Department of Energy’s Reactor Pilot Program. Authorized under Executive Order 14301, the program enables reactor testing and deployment in order to accelerate the path to commercialization of nuclear energy.お知らせ • Jun 25Deep Fission, Inc. Signs Letters of Intent for Up to 18.5 Gigawatts of Generation Capacity and Advances Gravity Nuclear Reactor ProjectDeep Fission, Inc. signed Letters of Intent (LOIs) with data centers, co-developers, industrial parks, and strategic partners representing up to 18.5 gigawatts (GW) of potential generation capacity. The Company is currently advancing its first reactor project at the Great Plains Industrial Park in Parsons, Kansas as part of the Department of Energy’s Reactor Pilot Program. It has completed drilling of its first data acquisition borehole to approximately 6,000 feet deep. Deep Fission’s next milestones will first demonstrate the ability to drill a commercial-scale borehole and then safely deploy a prototype reactor. These LOIs are non-binding and do not contain commitments to purchase electricity, finance projects, construct facilities, grant exclusivity, or deploy a specified number of reactors. Either party may terminate these arrangements without penalty. Deep Fission is developing technology that places a small modular pressurized water reactor in a borehole approximately one mile underground. The Company’s Gravity Nuclear Reactor approach combines established pressurized water reactor technology with a novel underground deployment model designed to simplify construction, enhance safety, and support scalable commercial deployment. Deep Fission is currently advancing the development of its first reactor project in Parsons, Kansas and was selected for the U.S. Department of Energy’s Reactor Pilot Program.ライブニュース • Jun 23Deep Fission Raises $40 Million to Fund Pilot Small Modular Reactor DevelopmentDeep Fission closed a public offering of 2.5 million shares at $16.00 per share, raising $40 million in gross proceeds to fund R&D, engineering, licensing and the build-out of its first pilot small modular “Gravity Reactor.” Its stock is listed on the Nasdaq Global Market under ticker FISN from 18 June 2026. The capital raise is intended to support development of underground small modular reactors that use subsurface conditions for containment and operation, with the company targeting carbon-free power primarily in the U.S. market. Deep Fission shares currently trade at $14.56, with the stock down 9.0% year to date. The key read-through is that Deep Fission now has additional funding to pursue its pilot reactor and licensing plans, but investors are still weighing execution, regulatory and technology risks against the company’s early-stage valuation.Board Change • Jun 20High number of new and inexperienced directorsThere are 6 new directors who have joined the board in the last 3 years. The company's board is composed of: 6 new directors. 6 experienced directors. No highly experienced directors. Co-Founder, CEO, President & Chairman Liz Muller is the most experienced director on the board, commencing their role in 2024. The following issues are considered to be risks according to the Simply Wall St Risk Model: Lack of board continuity. Lack of experienced directors. このセクションでは通常、投資家が会社の利益創出能力を理解する一助となるよう、プロのアナリストのコンセンサス予想に基づく収益と利益の成長予測を提示する。しかし、Deep Fission は十分な過去のデータを提供しておらず、アナリストの予測もないため、過去のデータを外挿したり、アナリストの予測を使用しても、その将来の収益を確実に算出することはできません。 シンプリー・ウォール・ストリートがカバーする企業の97%は過去の財務データを持っているため、これはかなり稀な状況です。 業績と収益の成長予測NasdaqGM:FISN - アナリストの将来予測と過去の財務データ ( )USD Millions日付収益収益フリー・キャッシュフロー営業活動によるキャッシュ平均アナリスト数3/31/2026N/A-79-26-25N/A12/31/2025N/A-61-13-13N/A9/30/2025N/A-51-8-8N/A6/30/2025N/A-13-6-6N/A3/31/2025N/A-8-4-4N/A12/31/2024N/A-6-3-3N/Aアナリストによる今後の成長予測収入対貯蓄率: FISNの予測収益成長が 貯蓄率 ( 3.5% ) を上回っているかどうかを判断するにはデータが不十分です。収益対市場: FISNの収益がUS市場よりも速く成長すると予測されるかどうかを判断するにはデータが不十分です高成長収益: FISNの収益が今後 3 年間で 大幅に 増加すると予想されるかどうかを判断するにはデータが不十分です。収益対市場: FISNの収益がUS市場よりも速く成長すると予測されるかどうかを判断するにはデータが不十分です。高い収益成長: FISNの収益が年間20%よりも速く成長すると予測されるかどうかを判断するにはデータが不十分です。一株当たり利益成長率予想将来の株主資本利益率将来のROE: FISNの 自己資本利益率 が 3 年後に高くなると予測されるかどうかを判断するにはデータが不十分です成長企業の発掘7D1Y7D1Y7D1YUtilities 業界の高成長企業。View Past Performance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2026/07/10 01:23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Deep Fission, 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 • Jul 07Deep Fission Announces Arrival Of Prototype Reactor Canister At Parsons Kansas SiteDeep Fission, Inc. announced the arrival of its prototype reactor canister at its Parsons, Kansas site, marking a key milestone in the Company’s Proof-of-Concept Well program and its Gravity Nuclear Reactor™ development. The factory-built prototype canister completed fabrication, hydrostatic testing, and delivery to Kansas, representing tangible progress toward validating installation, infrastructure readiness, and operational sequencing for the Company’s first commercial demonstration well. Upcoming testing using this hardware will validate the approach and provide valuable learnings as key systems are assembled, installed and tested under non-nuclear conditions in a large diameter borehole. The Proof-of-Concept Well is Deep Fission’s nearly full-scale validation program, designed to demonstrate a larger-diameter borehole and end-to-end installation workflow using commercial-grade, non-nuclear components prior to fuel loading. The program is intended to validate each stage of underground deployment under real-world conditions while confirming engineering assumptions at scale and supporting the Company’s broader commercialization timeline. The reactor canister is a key component of Deep Fission’s Gravity Nuclear Reactor™ design, which places a small modular pressurized water reactor in a borehole approximately one mile underground. The Gravity Reactor™ is based on established pressurized water reactor technology adapted for subsurface deployment, using pressure from a mile-long water column atop and surrounding the reactor in the borehole, to support operating pressure and cooling. In this design, thermal energy is transferred through a closed-loop system from the reactor canister to a heat exchanger, then rises to the surface in a secondary closed-loop for conversion into electricity, like a geothermal system. Following arrival at the Parsons site, the non-nuclear prototype reactor canister will be prepared for testing as Deep Fission continues preparation for its large diameter drilling program. The Company is advancing permitting with the Kansas Department of Health and Environment (KDHE) for the non-nuclear borehole, which is expected to serve as the next major proof-of-concept milestone. The Company is also progressing development of its full-scale nuclear demonstration borehole and advancing design of its primary heat exchanger. These parallel efforts support a phased strategy to accelerate iterative validation of the most unique aspects of Deep Fission’s commercial deployment model. Deep Fission is participating in the U.S. Department of Energy’s Reactor Pilot Program. Authorized under Executive Order 14301, the program enables reactor testing and deployment in order to accelerate the path to commercialization of nuclear energy.
お知らせ • Jun 25Deep Fission, Inc. Signs Letters of Intent for Up to 18.5 Gigawatts of Generation Capacity and Advances Gravity Nuclear Reactor ProjectDeep Fission, Inc. signed Letters of Intent (LOIs) with data centers, co-developers, industrial parks, and strategic partners representing up to 18.5 gigawatts (GW) of potential generation capacity. The Company is currently advancing its first reactor project at the Great Plains Industrial Park in Parsons, Kansas as part of the Department of Energy’s Reactor Pilot Program. It has completed drilling of its first data acquisition borehole to approximately 6,000 feet deep. Deep Fission’s next milestones will first demonstrate the ability to drill a commercial-scale borehole and then safely deploy a prototype reactor. These LOIs are non-binding and do not contain commitments to purchase electricity, finance projects, construct facilities, grant exclusivity, or deploy a specified number of reactors. Either party may terminate these arrangements without penalty. Deep Fission is developing technology that places a small modular pressurized water reactor in a borehole approximately one mile underground. The Company’s Gravity Nuclear Reactor approach combines established pressurized water reactor technology with a novel underground deployment model designed to simplify construction, enhance safety, and support scalable commercial deployment. Deep Fission is currently advancing the development of its first reactor project in Parsons, Kansas and was selected for the U.S. Department of Energy’s Reactor Pilot Program.
ライブニュース • Jun 23Deep Fission Raises $40 Million to Fund Pilot Small Modular Reactor DevelopmentDeep Fission closed a public offering of 2.5 million shares at $16.00 per share, raising $40 million in gross proceeds to fund R&D, engineering, licensing and the build-out of its first pilot small modular “Gravity Reactor.” Its stock is listed on the Nasdaq Global Market under ticker FISN from 18 June 2026. The capital raise is intended to support development of underground small modular reactors that use subsurface conditions for containment and operation, with the company targeting carbon-free power primarily in the U.S. market. Deep Fission shares currently trade at $14.56, with the stock down 9.0% year to date. The key read-through is that Deep Fission now has additional funding to pursue its pilot reactor and licensing plans, but investors are still weighing execution, regulatory and technology risks against the company’s early-stage valuation.
Board Change • Jun 20High number of new and inexperienced directorsThere are 6 new directors who have joined the board in the last 3 years. The company's board is composed of: 6 new directors. 6 experienced directors. No highly experienced directors. Co-Founder, CEO, President & Chairman Liz Muller is the most experienced director on the board, commencing their role in 2024. The following issues are considered to be risks according to the Simply Wall St Risk Model: Lack of board continuity. Lack of experienced directors.