米国調査会社インサイドクァンタムテクノロジー（Inside Quantum Technology）の調査レポート「量子磁力計市場：2020年から2029年」は、量子磁力計市場における最初の業界分析レポートです。同社は量子磁力計市場が、医学、軍事、地球物理学的な要因によって、2025年までに7億ドルをはるかに超えて成長すると見込んでおり、量子磁力計の市場を牽引する技術的要因と市場的要因の両方を調査しています。

レポートには、量子磁力計を製造および販売する大手企業の戦略的プロファイルを含む、量子磁力計システムの研究・商業開発の国別分析も含まれています。 また磁力計の種類とアプリケーションごとの内訳を含む詳細な10年間の市場予測も含まれます。

This report is the first industry analysis report to analyze the market for quantum magnetometers.  This is a market that Inside Quantum Technology believes will grow to well over $700 million by 2025 driven by compelling value propositions in medicine, the military, and geophysical applications. This report examines both technical and market factors driving the market for quantum magnetometers:

• Geophysical studies and exploration is by far the biggest market for magnetometers and this area has used classical magnetometers for half a century for applications such mineral explorations, magnetic survey and hazard detection.  This report discusses how the use of quantum technology for magnetometers is expanding the market for geophysical studies.
• While all quantum magnetometers offer users enhanced sensitivity compared with classical magnetometers, there is growing competition in the field between optically pumped magnetometers, proton magnetometers, Overhauser magnetometers, SERFs, NV-diamond vapor cell magnetometers and SQUIDs.  In this report, we discuss how each of these magnetometer types fit the needs of key end-user industries.

• While, quantum magnetometers have been shown to add value to some established markets, interesting – and potentially profitable – new applications for quantum magnetometers are also beginning to appear.  For example, beyond medical imaging, the

extreme sensitivity of SQUIDs makes them ideal for biological investigations of various kinds. And NV-diamond center magnetometers are being used in navigation systems where conventional GPS won’t work.  A detailed assessment of the commercial potential for such novel systems is also included in this report.

• Quantum magnetometers have a large number of applications in the military.  Both researchers in the US and China are working on such applications and this report discusses the impact that an era of Sino-American tensions may have on the quantum magnetometer business.
• The report also examines new quantum technology developments in the magnetometer.   In particular we take a look at chip-scale atomic magnetometers and we take a look at what these might mean in drones for aerial systems, the measurement of interplanetary magnetic fields or deployed close to the heart for magnetocardiography, among other applications.

The report also includes a country-by-country analysis of both R&D and commercial development of quantum magnetometer systems.  This includes strategic profiles of the leading firms manufacturing and marketing quantum magnetometer.  In addition, there are detailed ten-year forecasts with breakouts by type of magnetometer and application.