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== Quantum Sensors Patent Application Filing Activity ==
== Quantum Sensors Patent Application Filing Activity ==
== Quantum Sensors patent applications in 2025 ==
== Quantum Sensors patent applications in 2025 ==
[[File:Quantum_Sensors_Monthly_Patent_Applications_2025_-_Up_to_February 2025.png|border|800px]]
[[File:Quantum_Sensors_Monthly_Patent_Applications_2025_-_Up_to_April 2025.png|border|800px]]


== Top Technology Areas in Quantum Sensors ==
== Top Technology Areas in Quantum Sensors ==
[[File:Top_Technology_Areas_in_Quantum_Sensors_2025_-_Up_to_February 2025.png|border|800px]]
[[File:Top_Technology_Areas_in_Quantum_Sensors_2025_-_Up_to_April 2025.png|border|800px]]


=== Top CPC Codes ===
=== Top CPC Codes ===
Line 16: Line 16:
** Count: 1 patents
** Count: 1 patents
** Example: [[20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)]]
** Example: [[20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)]]
* [[:Category:CPC_G01R33/3607|G01R33/3607]] (No explanation available)
* [[:Category:CPC_G01R33/3607|G01R33/3607]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
* [[:Category:CPC_G01R33/3621|G01R33/3621]] (No explanation available)
* [[:Category:CPC_G01R33/3621|G01R33/3621]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
* [[:Category:CPC_G02B21/361|G02B21/361]] (No explanation available)
* [[:Category:CPC_G01D21/00|G01D21/00]] (Measuring or testing not otherwise provided for)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250130081. METHOD FOR ESTIMATING A VALUE OF AN OBSERVABLE QUANTITY OF A QUANTUM SYSTEM AND APPARATUS FOR CARRYING OUT SAID METHOD (Algorithmiq Oy)]]
* [[:Category:CPC_G02B21/002|G02B21/002]] (No explanation available)
* [[:Category:CPC_H01Q1/366|H01Q1/366]] ({using an ionized gas})
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]]
* [[:Category:CPC_G02B21/06|G02B21/06]] (No explanation available)
* [[:Category:CPC_H01Q1/38|H01Q1/38]] (formed by a conductive layer on an insulating support {(patch antennas)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]]
* [[:Category:CPC_G02B21/367|G02B21/367]] (No explanation available)
* [[:Category:CPC_H01Q1/48|H01Q1/48]] (Earthing means; Earth screens; Counterpoises)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]]
* [[:Category:CPC_G06N5/04|G06N5/04]] (No explanation available)
* [[:Category:CPC_H01Q13/06|H01Q13/06]] (Waveguide mouths  (horns)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
** Example: [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]]


== Top Companies in Quantum Sensors 2025 ==
== Top Companies in Quantum Sensors 2025 ==
Line 52: Line 52:
* Number of Quantum Sensors patents: 1
* Number of Quantum Sensors patents: 1
* Top CPC codes:
* Top CPC codes:
** [[:Category:CPC_G01R33/3607|G01R33/3607]] (No explanation available): 1 patents
** [[:Category:CPC_G01R33/3607|G01R33/3607]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits): 1 patents
** [[:Category:CPC_G01R33/3621|G01R33/3621]] (No explanation available): 1 patents
** [[:Category:CPC_G01R33/3621|G01R33/3621]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits): 1 patents
* Recent patents:
* Recent patents:
** [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]] (20250102)
** [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]] (20250102)
=== [[:Category:Algorithmiq Oy|Algorithmiq Oy]] ===
* Number of Quantum Sensors patents: 1
* Top CPC codes:
** [[:Category:CPC_G01D21/00|G01D21/00]] (Measuring or testing not otherwise provided for): 1 patents
* Recent patents:
** [[20250130081. METHOD FOR ESTIMATING A VALUE OF AN OBSERVABLE QUANTITY OF A QUANTUM SYSTEM AND APPARATUS FOR CARRYING OUT SAID METHOD (Algorithmiq Oy)]] (20250424)
=== [[:Category:TEXAS INSTRUMENTS INCORPORATED|TEXAS INSTRUMENTS INCORPORATED]] ===
* Number of Quantum Sensors patents: 1
* Top CPC codes:
** [[:Category:CPC_H01Q1/366|H01Q1/366]] ({using an ionized gas}): 1 patents
** [[:Category:CPC_H01Q1/38|H01Q1/38]] (formed by a conductive layer on an insulating support {(patch antennas): 1 patents
** [[:Category:CPC_H01Q1/48|H01Q1/48]] (Earthing means; Earth screens; Counterpoises): 1 patents
* Recent patents:
** [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]] (20250501)
=== [[:Category:California Institute of Technology|California Institute of Technology]] ===
=== [[:Category:California Institute of Technology|California Institute of Technology]] ===
* Number of Quantum Sensors patents: 1
* Number of Quantum Sensors patents: 1
* Top CPC codes:
* Top CPC codes:
** [[:Category:CPC_G02B21/361|G02B21/361]] (No explanation available): 1 patents
** [[:Category:CPC_G02B21/361|G02B21/361]] (OPTICAL ELEMENTS, SYSTEMS OR APPARATUS): 1 patents
** [[:Category:CPC_G02B21/002|G02B21/002]] (No explanation available): 1 patents
** [[:Category:CPC_G02B21/002|G02B21/002]] (Microscopes): 1 patents
** [[:Category:CPC_G02B21/06|G02B21/06]] (No explanation available): 1 patents
** [[:Category:CPC_G02B21/06|G02B21/06]] (OPTICAL ELEMENTS, SYSTEMS OR APPARATUS): 1 patents
* Recent patents:
* Recent patents:
** [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]] (20250320)
** [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]] (20250320)
=== [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]] ===
* Number of Quantum Sensors patents: 1
* Top CPC codes:
** [[:Category:CPC_H10D48/383|H10D48/383]] (No explanation available): 1 patents
** [[:Category:CPC_G01R31/2642|G01R31/2642]] (Testing of individual semiconductor devices  (testing or measuring during manufacture or treatment {): 1 patents
** [[:Category:CPC_G01R31/265|G01R31/265]] (Testing of individual semiconductor devices  (testing or measuring during manufacture or treatment {): 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:QUNASYS INC.|QUNASYS INC.]] ===
* Number of Quantum Sensors patents: 1
* Top CPC codes:
** [[:Category:CPC_G06N10/20|G06N10/20]] (Models of quantum computing, e.g. quantum circuits or universal quantum computers): 1 patents
** [[:Category:CPC_G06N10/70|G06N10/70]] (Quantum error correction, detection or prevention, e.g. surface codes or magic state distillation): 1 patents
* Recent patents:
** [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]] (20250417)
=== [[:Category:Zapata Computing, Inc.|Zapata Computing, Inc.]] ===
=== [[:Category:Zapata Computing, Inc.|Zapata Computing, Inc.]] ===
* Number of Quantum Sensors patents: 1
* Number of Quantum Sensors patents: 1
* Top CPC codes:
* Top CPC codes:
** [[:Category:CPC_G06N5/04|G06N5/04]] (No explanation available): 1 patents
** [[:Category:CPC_G06N5/04|G06N5/04]] (Inference or reasoning models): 1 patents
** [[:Category:CPC_G06N10/00|G06N10/00]] (No explanation available): 1 patents
** [[:Category:CPC_G06N10/00|G06N10/00]] (Quantum computing, i.e. information processing based on quantum-mechanical phenomena): 1 patents
* Recent patents:
* Recent patents:
** [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]] (20250109)
** [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]] (20250109)
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[[File:Emerging_Technology_Areas_in_Quantum_Sensors.png|border|800px]]
[[File:Emerging_Technology_Areas_in_Quantum_Sensors.png|border|800px]]


* [[:Category:CPC_G06N10/00|G06N10/00]] (No explanation available)
* [[:Category:CPC_G06N10/00|G06N10/00]] (Quantum computing, i.e. information processing based on quantum-mechanical phenomena)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
* [[:Category:CPC_G06N5/04|G06N5/04]] (No explanation available)
* [[:Category:CPC_G06N5/04|G06N5/04]] (Inference or reasoning models)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
* [[:Category:CPC_G02B21/367|G02B21/367]] (No explanation available)
* [[:Category:CPC_G06N10/70|G06N10/70]] (Quantum error correction, detection or prevention, e.g. surface codes or magic state distillation)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]]
* [[:Category:CPC_G02B21/06|G02B21/06]] (No explanation available)
* [[:Category:CPC_G06N10/20|G06N10/20]] (Models of quantum computing, e.g. quantum circuits or universal quantum computers)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]]
* [[:Category:CPC_G02B21/002|G02B21/002]] (No explanation available)
* [[:Category:CPC_H01L2224/08225|H01L2224/08225]] (SEMICONDUCTOR DEVICES NOT COVERED BY CLASS)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]]
* [[:Category:CPC_G02B21/361|G02B21/361]] (No explanation available)
* [[:Category:CPC_H01L25/167|H01L25/167]] (the devices being of types provided for in two or more different main groups of groups)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]]
** Example: [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]]
* [[:Category:CPC_G01R33/3621|G01R33/3621]] (No explanation available)
* [[:Category:CPC_H01L24/08|H01L24/08]] (SEMICONDUCTOR DEVICES NOT COVERED BY CLASS)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
** Example: [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]]
* [[:Category:CPC_G01R33/3607|G01R33/3607]] (No explanation available)
* [[:Category:CPC_H01L23/66|H01L23/66]] (SEMICONDUCTOR DEVICES NOT COVERED BY CLASS)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
** Example: [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]]
* [[:Category:CPC_H10N60/85|H10N60/85]] (No explanation available)
* [[:Category:CPC_H01L23/147|H01L23/147]] ({Semiconductor insulating substrates  (semiconductor conductive substrates)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)]]
** Example: [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]]
* [[:Category:CPC_H10N60/12|H10N60/12]] (No explanation available)
* [[:Category:CPC_G01R31/265|G01R31/265]] (Testing of individual semiconductor devices  (testing or measuring during manufacture or treatment {)
** Count: 1 patents
** Count: 1 patents
** Example: [[20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)]]
** Example: [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]]


== Top Companies in Emerging Quantum Sensors Technologies 2025==
== Top Companies in Emerging Quantum Sensors Technologies 2025==
[[File:Top_Companies_in_Emerging_Quantum_Sensors_Technologies.png|border|800px]]
[[File:Top_Companies_in_Emerging_Quantum_Sensors_Technologies.png|border|800px]]


* [[:Category:California Institute of Technology|California Institute of Technology]]: 4 patents
* [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 6 patents
* [[:Category:Teknologian tutkimuskeskus VTT Oy|Teknologian tutkimuskeskus VTT Oy]]: 2 patents
* [[:Category:QUNASYS INC.|QUNASYS INC.]]: 2 patents
* [[:Category:SUMIDA CORPORATION|SUMIDA CORPORATION]]: 2 patents
* [[:Category:Zapata Computing, Inc.|Zapata Computing, Inc.]]: 2 patents
* [[:Category:Zapata Computing, Inc.|Zapata Computing, Inc.]]: 2 patents


Line 170: Line 198:
* Recent patents:
* Recent patents:
** [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]] (20250102)
** [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]] (20250102)
=== [[:Category:Guillermo GARCÍA PÉREZ|Guillermo GARCÍA PÉREZ]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Algorithmiq Oy|Algorithmiq Oy]]: 1 patents
* Recent patents:
** [[20250130081. METHOD FOR ESTIMATING A VALUE OF AN OBSERVABLE QUANTITY OF A QUANTUM SYSTEM AND APPARATUS FOR CARRYING OUT SAID METHOD (Algorithmiq Oy)]] (20250424)
=== [[:Category:Matteo ROSSI|Matteo ROSSI]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Algorithmiq Oy|Algorithmiq Oy]]: 1 patents
* Recent patents:
** [[20250130081. METHOD FOR ESTIMATING A VALUE OF AN OBSERVABLE QUANTITY OF A QUANTUM SYSTEM AND APPARATUS FOR CARRYING OUT SAID METHOD (Algorithmiq Oy)]] (20250424)
=== [[:Category:Juan HERBSOMMER|Juan HERBSOMMER of Allen TX (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:TEXAS INSTRUMENTS INCORPORATED|TEXAS INSTRUMENTS INCORPORATED]]: 1 patents
* Recent patents:
** [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]] (20250501)
=== [[:Category:Hassan Omar ALI|Hassan Omar ALI of Murphy TX (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:TEXAS INSTRUMENTS INCORPORATED|TEXAS INSTRUMENTS INCORPORATED]]: 1 patents
* Recent patents:
** [[20250141098. MILLIMETER WAVE QUANTUM SENSOR DEVICE (TEXAS INSTRUMENTS INCORPORATED)]] (20250501)
=== [[:Category:Lihong Wang|Lihong Wang of Arcadia CA (US)]] ===
=== [[:Category:Lihong Wang|Lihong Wang of Arcadia CA (US)]] ===
* Number of Quantum Sensors patents: 1
* Number of Quantum Sensors patents: 1
Line 194: Line 246:
* Recent patents:
* Recent patents:
** [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]] (20250320)
** [[20250093636. HYPER-HEISENBERG SCALING QUANTUM MICROSCOPY (California Institute of Technology)]] (20250320)
=== [[:Category:Ercan Mehmet DEDE|Ercan Mehmet DEDE of Ann Arbor MI (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:Yohei IWAHASHI|Yohei IWAHASHI of Plano TX (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:Alejandro RUIZ|Alejandro RUIZ of Ann Arbor MI (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:Debasish BANERJEE|Debasish BANERJEE of Ann Arbor MI (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:Shailesh N. JOSHI|Shailesh N. JOSHI of Ann Arbor MI (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:Paul Donald SCHMALENBERG|Paul Donald SCHMALENBERG of Ann Arbor MI (US)]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:Toyota Motor Engineering & Manufacturing North America, Inc.|Toyota Motor Engineering & Manufacturing North America, Inc.]]: 1 patents
* Recent patents:
** [[20250151340. POWER DEVICE PROGNOSTICS WITH QUANTUM SENSING THROUGH 2-D MATERIALS (Toyota Motor Engineering & Manufacturing North America, Inc.)]] (20250508)
=== [[:Category:Keita KANNO|Keita KANNO]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:QUNASYS INC.|QUNASYS INC.]]: 1 patents
* Recent patents:
** [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]] (20250417)
=== [[:Category:Ryosuke IMAI|Ryosuke IMAI]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:QUNASYS INC.|QUNASYS INC.]]: 1 patents
* Recent patents:
** [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]] (20250417)
=== [[:Category:Masaya KOHDA|Masaya KOHDA]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:QUNASYS INC.|QUNASYS INC.]]: 1 patents
* Recent patents:
** [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]] (20250417)
=== [[:Category:Yuya NAKAGAWA|Yuya NAKAGAWA]] ===
* Number of Quantum Sensors patents: 1
* Top companies:
** [[:Category:QUNASYS INC.|QUNASYS INC.]]: 1 patents
* Recent patents:
** [[20250124319. QUANTUM INFORMATION PROCESSING METHOD, CLASSICAL COMPUTER, HYBRID SYSTEM, AND QUANTUM INFORMATION PROCESSING PROGRAM (QUNASYS INC.)]] (20250417)
=== [[:Category:Guoming WANG|Guoming WANG]] ===
=== [[:Category:Guoming WANG|Guoming WANG]] ===
* Number of Quantum Sensors patents: 1
* Number of Quantum Sensors patents: 1
Line 235: Line 347:
[[File:Top_20_Cities_for_Quantum_Sensors_Inventors.png|border|800px]]
[[File:Top_20_Cities_for_Quantum_Sensors_Inventors.png|border|800px]]


* Ann Arbor: 5 inventors
* Bunkyo-ku, Tokyo: 4 inventors
* Espoo: 3 inventors
* Espoo: 3 inventors
* Miyagi: 3 inventors
* Miyagi: 3 inventors
* Pasadena: 3 inventors
* Pasadena: 3 inventors
* Kyoto: 2 inventors
* Kyoto: 2 inventors
* Helsinki: 2 inventors
* Cambridge: 2 inventors
* Cambridge: 2 inventors
* Allen: 1 inventors
* Murphy: 1 inventors
* Arcadia: 1 inventors
* Arcadia: 1 inventors
* Plano: 1 inventors
* North York: 1 inventors
* North York: 1 inventors
* Somerville: 1 inventors
* Somerville: 1 inventors

Revision as of 18:14, 21 May 2025

Quantum Sensors Patent Application Filing Activity

Quantum Sensors patent applications in 2025

Top Technology Areas in Quantum Sensors

Top CPC Codes

Top Companies in Quantum Sensors 2025

File:Top Companies in Quantum Sensors.png

Teknologian tutkimuskeskus VTT Oy

SUMIDA CORPORATION

Algorithmiq Oy

TEXAS INSTRUMENTS INCORPORATED

California Institute of Technology

Toyota Motor Engineering & Manufacturing North America, Inc.

QUNASYS INC.

Zapata Computing, Inc.

New Companies in Quantum Sensors (Last Month)

File:New Companies in Quantum Sensors Last Month.png

No new companies detected in the last month.

Emerging Technology Areas in Quantum Sensors

Top Companies in Emerging Quantum Sensors Technologies 2025

Top Inventors in Quantum Sensors

Janne Lehtinen

Joonas Govenius

Jukka-Pekka Kaikkonen

Izuru OHKI

Norikazu MIZUOCHI

Yoshiharu YOSHII

Tsunaki KANEKO

Akifumi SAKO

Guillermo GARCÍA PÉREZ

Matteo ROSSI

Juan HERBSOMMER of Allen TX (US)

Hassan Omar ALI of Murphy TX (US)

Lihong Wang of Arcadia CA (US)

Xin Tong of Pasadena CA (US)

Zhe He of Pasadena CA (US)

Yide Zhang of Pasadena CA (US)

Ercan Mehmet DEDE of Ann Arbor MI (US)

Yohei IWAHASHI of Plano TX (US)

Alejandro RUIZ of Ann Arbor MI (US)

Debasish BANERJEE of Ann Arbor MI (US)

Shailesh N. JOSHI of Ann Arbor MI (US)

Paul Donald SCHMALENBERG of Ann Arbor MI (US)

Keita KANNO

Ryosuke IMAI

Masaya KOHDA

Yuya NAKAGAWA

Guoming WANG

Enshan Dax KOH of Cambridge MA (US)

Peter D. JOHNSON of Somerville MA (US)

Yudong CAO of Cambridge MA (US)

Pierre-Luc DALLAIRE-DEMERS

Top Collaborations in Quantum Sensors

Top US States for Quantum Sensors Inventors


Top Cities for Quantum Sensors Inventors

  • Ann Arbor: 5 inventors
  • Bunkyo-ku, Tokyo: 4 inventors
  • Espoo: 3 inventors
  • Miyagi: 3 inventors
  • Pasadena: 3 inventors
  • Kyoto: 2 inventors
  • Helsinki: 2 inventors
  • Cambridge: 2 inventors
  • Allen: 1 inventors
  • Murphy: 1 inventors
  • Arcadia: 1 inventors
  • Plano: 1 inventors
  • North York: 1 inventors
  • Somerville: 1 inventors
  • Toronto: 1 inventors
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