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自旋電子學:市場佔有率分析、產業趨勢與統計、成長預測(2025-2030)

Spintronics - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)
出版日期: | 出版商: Mordor Intelligence | 英文 116 Pages | 商品交期: 2-3個工作天內

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簡介目錄

自旋電子學市場規模預計在 2025 年為 20.3 億美元,預計到 2030 年將達到 96.1 億美元,預測期內(2025-2030 年)的複合年成長率為 36.43%。

自旋電子學市場-IMG1

主要亮點

  • 除了基本電子電荷外,自旋電子學還研究固體元件中固有的電子自旋及其相關磁矩。自旋電子學是一種驅動下一代奈米電子設備的技術,它可以提高記憶體和處理能力,同時降低功耗。在這些裝置中,自旋極化由磁性層或自旋軌道交互作用控制。自旋電子學的當前應用是電腦和攜帶式音樂播放器使用的硬碟的讀寫頭。
  • 此外,疫情影響巨大,多個國家政府實施封鎖等各種遏制措施,對工業部門的成長造成嚴重影響。因此,受訪的市場出現了放緩跡象,尤其是在早期階段。然而,隨著資料中心和雲端處理等公司的需求和採用激增,這種情況擴大了研究市場的範圍。
  • 現代資料革命在某種程度上得益於數十年來對磁性和自旋現象的研究。例如,巨磁電阻的觀測以及由此產生的自旋閥讀頭的演變等突破性成就繼續推動著設備研究。然而,對更快的資料處理速度和更大的資料儲存容量的不斷成長的需求引發了人們對能源消費量和環境的嚴重擔憂。因此自旋電子學的研究發展需要提高資訊處理能力,同時降低消費量。隨著資料儲存容量的不斷成長以及能源消費量的增加,這一點至關重要。
  • 自旋電子學可以透過實現更快、更節能的邏輯運算來提高運算效能。自旋電子元件,例如基於自旋的電晶體和自旋邏輯閘,有可能克服傳統 CMOS(互補型金屬氧化物半導體)技術的局限性,實現更快、更低功耗的運算。
  • 多種因素刺激了這項需求,包括 5G 網路的日益普及。 5G 網路的推出將需要更快的資料傳輸來滿足日益成長的頻寬和連線需求。自旋電子技術可以實現更快的資料傳輸速度,非常適合 5G 應用。
  • 替代技術和材料的隨時可用性是所研究市場面臨的關鍵挑戰之一。自旋電子學市場仍處於起步階段,面臨系統級和設備級的挑戰,必須解決這些挑戰才能將自旋電子材料和功能整合到主流微電子平台中。

自旋電子學市場趨勢

預計半導體設備將實現顯著成長

  • 根據半導體產業協會(SIA)和WSTS的預測,2023年全球半導體銷售額預計將達到5,151億美元。半導體是電子設備的關鍵元件,產業競爭非常激烈。雖然預計 2024 年將快速復甦,但 2023 年的與前一年同期比較減幅度為 10.3%。預計不斷發展的半導體產業將推動市場的成長。
  • 市場研究涵蓋自旋二極體、自旋濾波器和自旋場效電晶體。自旋二極體是一種可以測量電路中電流的半導體元件。有幾種趨勢正在塑造自旋二極體產業。對於記憶體應用,人們正在探索自旋二極體,它在非揮發性、電源存取速度和節能方面具有潛在優勢。
  • 自旋濾波器在自旋電子學的各種應用中發揮重要作用,自旋電子學利用電子自旋來處理、儲存和操縱資訊。這些儀器對於產生、改變和測量自旋極化電流至關重要,並且是自旋電子技術發展的基本要素。
  • 目前,利用量子點的自旋過濾裝置正受到人們的關注。 2023 年 1 月,一個國際科學家團隊展示了在量子點中自旋量子位元保持量子相干性方面取得的飛躍,這是全球推動實用量子網路和量子電腦發展的一部分。這些技術的應用有望改變許多工業和研究活動,從資訊傳輸的安全性,到尋找具有新特性的材料和化學物質,再到測量需要感測器之間精確時間同步的基本現象。
  • 根據美國物理學會的研究,高自旋注入效率(SIE)和從磁性材料到勢壘材料的熱自旋過濾效應(SFE)分別對於高性能自旋電子學和自旋熱電子學裝置至關重要。
  • 自旋場效電晶體(Spin-FET)是自旋電子元件的代表性類別,其利用夾在鐵磁源極和汲極接觸之間的半導體通道中的閘極調諧自旋軌道相互作用來實現電晶體功能。最近,一種新型自旋場效電晶體(FET)被提案。這種自旋場效電晶體 (FET) 的獨特振動傳輸特性,透過對量子材料中的應變進行閘極調節,可以實現倍頻等令人興奮的模擬應用。

預計亞太地區將佔據主要市場佔有率

  • 自旋電子學相關研究活動的增加、半導體製造業的全球主導地位以及鑄造和電子製造等全球行業的領先地位是擴大亞太地區自旋電子學技術範圍的一些關鍵因素。
  • 中國、日本、新加坡和韓國等國家由於加大對自旋電子技術相關研究的投資,成為研究市場的重要投資者。此外,印度和東南亞國家憑藉其較高的製造水平,正成為自旋電子技術的重要終端用戶。
  • 由於科學、工業和醫療應用的需求不斷成長,該地區對自旋電子學的需求也日益增加。主要市場參與者正在向其他地區擴張,以增加市場佔有率和盈利。例如,2023 年 8 月,印度 SN Bose 國家基礎科學中心的科學家開發出世界上第一種2D複合量子材料,這種材料表現出一種稱為拉什巴分裂的異國風量子特性,可用於自旋電子電晶體和二極體等自旋電子裝置。這種材料可以與自旋電晶體、自旋二極體和自旋濾波器等自旋電子裝置中的2D基板(例如石墨烯)連接,其中可以利用電子自旋的量子特性來實現更高的性能。
  • 此外,亞太半導體產業主要由中國、日本、台灣和韓國推動,這四個國家合計佔全球半導體市場收益的約35%。韓國擁有超過2萬家半導體相關企業,其中包括2,650家半導體設備公司、4078家半導體材料公司和369家IC製造相關企業。亞太地區電子產業的預期成長率高於其他地區。

自旋電子學產業概覽

自旋電子學市場的特徵是產品滲透持續、產品差異化有限、競爭激烈。創新對於確保競爭優勢起著至關重要的作用。值得注意的是,Avalanche Technology、Everspin Technologies Inc.、Synopsys Inc.、NVE Corporation、Crocus Technology Inc.、Allegro Microsystems, Inc. 等主要市場參與者近年來已獲得資金以加強產品創新。

2023 年 6 月,Crocus Technology 推出了 CT40x,這是一款突破性的電流感測解決方案,重新定義了動態和苛刻環境中的電流感測。它們具有出色的性能和準確性,支援接觸式和非接觸式電流感測應用,並可無縫整合到各種電力系統中。 CT40x TMR 感測器與傳統霍爾和 MR 替代品相比,保證了毫不妥協的性能,加速了市場對 TMR 技術的採用。

2023 年 5 月,NVE 推出了 SM223,擴大了其智慧磁力儀系列,SM223 是其隧道磁阻 (TMR) 智慧磁力儀的高靈敏度版本。這些新元件的靈敏度有所提高,可提高增強型機器人的精確位置控制,以及更有效率馬達的微小電流測量。

其他福利:

  • Excel 格式的市場預測 (ME) 表
  • 3個月的分析師支持

目錄

第1章 引言

  • 研究假設和市場定義
  • 研究範圍

第2章調查方法

第3章執行摘要

第4章 市場洞察

  • 市場概覽
  • 產業價值鏈分析
  • 產業吸引力-波特五力分析
    • 供應商的議價能力
    • 買家的議價能力
    • 新進入者的威脅
    • 替代品的威脅
    • 競爭對手之間的競爭
  • COVID-19 和其他宏觀經濟趨勢對市場的影響

第5章市場動態

  • 市場促進因素
    • 由於功耗降低,電子設備對自旋電子學的需求不斷增加
    • 對更快的資料傳輸速度和更大的儲存容量的需求日益增加
  • 市場挑戰
    • 隨時可用的替代技術和材料

第6章 自旋電子學專利趨勢

第7章市場區隔

  • 設備類型
    • 金屬基元件
      • 巨磁電阻元件(GMR)
      • 隧道磁阻(TMR)
      • 自旋轉移扭矩裝置
      • 自旋波裝置
    • 半導體裝置
      • 自旋二極體
      • 旋轉過濾器
      • 自旋場效電晶體(FET)
  • 應用領域
    • 電動汽車和工業馬達
    • 資料儲存/MRAM
    • 磁感應
    • 其他用途
  • 地區
    • 北美洲
    • 歐洲
    • 亞洲
    • 澳洲和紐西蘭

第8章競爭格局

  • 公司簡介
    • NVE Corporation
    • Everspin Technologies Inc.
    • Crocus Technology Inc.(Allegro Microsystems, Inc.)
    • Synopsys Inc.
    • Avalanche Technology Inc.

第9章投資分析

第10章:市場的未來

簡介目錄
Product Code: 51509

The Spintronics Market size is estimated at USD 2.03 billion in 2025, and is expected to reach USD 9.61 billion by 2030, at a CAGR of 36.43% during the forecast period (2025-2030).

Spintronics - Market - IMG1

Key Highlights

  • Spintronics studies the intrinsic spin of the electron and its associated magnetic moment in solid-state devices, in addition to its fundamental electronic charge. Spintronics is the driving technology behind next-generation nano-electronic devices to increase their memory and processing abilities while reducing power consumption. In these devices, the spin polarization is controlled by magnetic layers or spin-orbit coupling. The current application of spintronics is in the read/write heads of the hard disk drives used in computers and portable music players.
  • Furthermore, a notable impact of the pandemic has been observed on the market as various containment measures were taken by governments across multiple countries, such as lockdowns, which significantly impacted the growth of the industrial sector. As a result, a slowdown was witnessed in the studied market, especially during the initial phase. However, the scenario expanded the scope of the market studied as enterprises like data centers and cloud computing witnessed a surge in demand and adoption.
  • The contemporary data revolution has, in part, been fostered by decades of research into magnetism and spin phenomena. For instance, milestones such as the observation of giant magnetoresistance and the resulting evolution of the spin-valve read head continue to motivate device research. However, the ever-increasing need for higher data processing speeds and more extensive data storage capabilities has significantly increased energy consumption and environmental concerns. Therefore, ongoing research and development in spintronics should reduce energy consumption while increasing information processing capabilities. This is crucial as data storage capacity continues to increase, leading to a corresponding increase in energy consumption.
  • Spintronics can enhance computing performance by enabling faster and more energy-efficient logic operations. Spintronics devices like spin-based transistors and spin logic gates have the potential to overcome the limitations of traditional CMOS (complementary metal-oxide semiconductor) technology and enable high-speed, low-power computing.
  • This demand is fueled by several factors, including the growing penetration of 5G networks. The deployment of 5G networks requires higher data transfer speeds to support the increased bandwidth and connectivity demands. Spintronics technology can enable faster data transfer rates, making it suitable for 5G applications.
  • The easy availability of substitute technologies and materials is one of the significant challenges in the market studied. The spintronics market is still in its nascent stage and faces challenges at both the system and device levels that need to be addressed to integrate spintronic materials and functionalities into mainstream microelectronic platforms.

Spintronics Market Trends

Semiconductor-based Devices are expected to Witness Major Growth

  • According to the Semiconductor Industry Association (SIA) and WSTS, 2023 semiconductor sales were expected to reach USD 515.1 billion worldwide. Semiconductors are crucial components of electronic devices, and the industry is highly competitive. The year-on-year decline rate in 2023 was 10.3 percent, although a swift recovery is expected in 2024. The growing semiconductor industry is expected to aid the studied market's growth.
  • Spin diode, spin filter, and spin field-effect transistor are considered for the market study. A spin diode is a semiconductor device that can measure the current flow in an electrical circuit. Several trends are shaping the spin diode industry. In the case of memory applications, spin diodes are being explored and offer potential advantages in terms of their nonvolatility, speed of access to power, and energy savings.
  • Spin filters play an essential role in different applications in spintronics, which uses electron spin to perform information processing, storage, and manipulation. These instruments are vital for generating, modifying, and measuring spin-polarized currents, making them a fundamental element in spintronic technology's evolution.
  • Currently, spin filter devices based on quantum dots are gaining traction. Adhering to this, in January 2023, an international team of scientists demonstrated a leap in preserving the quantum coherence of quantum dot spin qubits as part of the global push for practical quantum networks and quantum computers. The application of these technologies will transform many industries and research efforts, from the safety of information transfer to the search for materials or chemicals with new properties, such as measurements of fundamental phenomena that require accurate time synchronization between sensors.
  • According to the American Institute of Physics, high spin-injection-efficiency (SIE) and thermal spin-filter-effect (SFE) from a magnetic material to a barrier material are crucial to the high performance of a spintronic device and a spin caloritronic device, respectively.
  • Spin field effect transistors (Spin-FET) are an iconic spintronic device class exploiting gate-tuned spin-orbit interaction in semiconductor channels interposed between the ferromagnetic source and drain contacts to elicit transistor functionality. Recently, a novel type of spin-FET has been suggested. It could lead to exciting analog applications such as frequency multiplication due to its unique oscillatory transfer characteristics in the form of gate-tuned strain on quantum materials.

Asia Pacific is Expected to Hold a Major Market Share

  • An increase in the number of research activities related to spintronics, global dominance in semiconductor manufacturing, foundries, and lead in global industries such as electronic product manufacturing are some of the major factors expanding the scope of spintronics technologies in the Asia-Pacific region.
  • Countries like China, Japan, Singapore, and South Korea are prominent investors in the market studied due to increasing investments in research related to spintronics technologies. In addition to that, countries like India and others in Southeast Asia are emerging as significant end users for these technologies due to the high level of manufacturing.
  • The demand for spintronics is on the rise for the region, owing to the rising demand for scientific, industrial, and medical applications. The major market players are trying to expand their business in other regions to increase their market share and profitability. For instance, in August of 2023, scientists at S.N. Bose National Centre for Basic Sciences, India, developed the first-of-its-kind 2D Composite Quantum Material that exhibits the exotic quantum property of Rashba splitting, which is useful for Spintronic devices such as Spintronic transistors & Diodes. The material can interface with 2D substrates (Graphene, for example) in Spintronic Devices such as Spin Transistors, Spin Diodes, and Spin Filters that exploit the quantum property of electron spin for higher performance.
  • Moreover, The semiconductor industry in the Asia-Pacific region is majorly driven by China, Japan, Taiwan, and South Korea, which together constitute around 35% of the global semiconductor market revenue. South Korea has more than 20,000 semiconductor-related companies, including 2650 semiconductor equipment enterprises, 4078 semiconductor material enterprises, and 369 IC manufacturing enterprises. The estimated growth of the electronic industry in the Asia-Pacific region is higher compared to other regions.

Spintronics Industry Overview

The spintronics market is marked by continual product penetration, limited product distinction, and intense competition. Innovation plays a pivotal role in securing a competitive edge. Notably, key market players like Avalanche Technology, Everspin Technologies Inc., Synopsys Inc., NVE Corporation, and Crocus Technology Inc. (Allegro Microsystems, Inc.) have secured funding to bolster their product innovation in recent years.

In June 2023, Crocus Technology introduced the CT40x, a groundbreaking current sensing solution that redefines current sensing in dynamic, high-demand environments. With exceptional performance and accuracy, it caters to both contact and contactless current sensing applications, seamlessly integrating into diverse power systems. The CT40x TMR sensor ensures uncompromised performance compared to traditional Hall and MR alternatives, facilitating widespread adoption of TMR technology across the market.

In May 2023, NVE expanded its range of smart magnetometers by unveiling the SM223, a high-sensitivity variant of its tunnel magnetoresistance (TMR) smart magnetometers. The heightened sensitivity of this new component enables more precise position control for enhanced robotics and finer current measurement for more efficient motors.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumptions and Market Definition
  • 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

  • 4.1 Market Overview
  • 4.2 Industry Value Chain Analysis
  • 4.3 Industry Attractiveness - Porter's Five Forces Analysis
    • 4.3.1 Bargaining Power of Suppliers
    • 4.3.2 Bargaining Power of Buyers
    • 4.3.3 Threat of New Entrants
    • 4.3.4 Threat of Substitutes
    • 4.3.5 Intensity of Competitive Rivalry
  • 4.4 Impact of COVID-19 and Other Macro Economic Trends on the Market

5 MARKET DYNAMICS

  • 5.1 Market Drivers
    • 5.1.1 Increasing Demand for Spintronics in Electronic Devices, Due to Lesser Power Consumption
    • 5.1.2 Rising Need for Higher Data Transfer Speed and Increased Storage Capacity
  • 5.2 Market Challenges
    • 5.2.1 Easy Availability of Substitute Technologies and Materials

6 SPINTRONICS PATENT LANDSCAPE

7 MARKET SEGMENTATION

  • 7.1 Type of Device
    • 7.1.1 Metal Based Devices
      • 7.1.1.1 Giant Magneto Resistance-based Device (GMRs)
      • 7.1.1.2 Tunnel Magneto Resistance-based Device (TMRs)
      • 7.1.1.3 Spin-transfer Torque Device
      • 7.1.1.4 Spin-wave Logic Device
    • 7.1.2 Semiconductor Based Device
      • 7.1.2.1 Spin Diode
      • 7.1.2.2 Spin Filter
      • 7.1.2.3 Spin Field-effect Transistor (FETs)
  • 7.2 Application
    • 7.2.1 Electric Vehicle and Industrial Motor
    • 7.2.2 Data Storage/MRAM
    • 7.2.3 Magnetic Sensing
    • 7.2.4 Other Applications
  • 7.3 Geography
    • 7.3.1 North America
    • 7.3.2 Europe
    • 7.3.3 Asia
    • 7.3.4 Australia and New Zealand

8 COMPETITIVE LANDSCAPE

  • 8.1 Company Profiles
    • 8.1.1 NVE Corporation
    • 8.1.2 Everspin Technologies Inc.
    • 8.1.3 Crocus Technology Inc. (Allegro Microsystems, Inc.)
    • 8.1.4 Synopsys Inc.
    • 8.1.5 Avalanche Technology Inc.

9 INVESTMENT ANALYSIS

10 FUTURE OF THE MARKET