QuantumGrad
@quantumgrad.bsky.social
🔗 QuantumGrad: https://www.quantumgrad.com/
📺 QuantumGrad YouTube: https://www.youtube.com/@quantumgrad4896/featured
📺 QuantumGrad YouTube: https://www.youtube.com/@quantumgrad4896/featured
🎁 BONUS: Use code SPECIAL30 to get 30% off your registration!
Don't just hear about the future—understand it. Join the global community.
Details & Registration: www.eventbrite.com/e/quantum-co...
#Leadership #Quantum #Tech #Innovation
Don't just hear about the future—understand it. Join the global community.
Details & Registration: www.eventbrite.com/e/quantum-co...
#Leadership #Quantum #Tech #Innovation
November 10, 2025 at 4:00 AM
🎁 BONUS: Use code SPECIAL30 to get 30% off your registration!
Don't just hear about the future—understand it. Join the global community.
Details & Registration: www.eventbrite.com/e/quantum-co...
#Leadership #Quantum #Tech #Innovation
Don't just hear about the future—understand it. Join the global community.
Details & Registration: www.eventbrite.com/e/quantum-co...
#Leadership #Quantum #Tech #Innovation
Quantum computing is here. How will it impact your industry? 🤔
I'm excited to share "Quantum Computing for Leaders," a 2-day virtual masterclass on Dec 6-7, 2025.
Featuring top experts from the IBM quantum ecosystem.
🧵 Here's what you need to know... #QuantumComputing
I'm excited to share "Quantum Computing for Leaders," a 2-day virtual masterclass on Dec 6-7, 2025.
Featuring top experts from the IBM quantum ecosystem.
🧵 Here's what you need to know... #QuantumComputing
November 10, 2025 at 4:00 AM
Quantum computing is here. How will it impact your industry? 🤔
I'm excited to share "Quantum Computing for Leaders," a 2-day virtual masterclass on Dec 6-7, 2025.
Featuring top experts from the IBM quantum ecosystem.
🧵 Here's what you need to know... #QuantumComputing
I'm excited to share "Quantum Computing for Leaders," a 2-day virtual masterclass on Dec 6-7, 2025.
Featuring top experts from the IBM quantum ecosystem.
🧵 Here's what you need to know... #QuantumComputing
🔹 Join us for an exciting talk! 🔹
We’re thrilled to invite you to a session on “Introduction to Quantum Hardware” with Šimon Marek.
📅 Topic: Intro to Quantum Hardware
🎙️ Speaker: Šimon Marek
🔗 Register here: us06web.zoom.us/meeting/regi...
We’re thrilled to invite you to a session on “Introduction to Quantum Hardware” with Šimon Marek.
📅 Topic: Intro to Quantum Hardware
🎙️ Speaker: Šimon Marek
🔗 Register here: us06web.zoom.us/meeting/regi...
November 3, 2025 at 12:08 PM
🔹 Join us for an exciting talk! 🔹
We’re thrilled to invite you to a session on “Introduction to Quantum Hardware” with Šimon Marek.
📅 Topic: Intro to Quantum Hardware
🎙️ Speaker: Šimon Marek
🔗 Register here: us06web.zoom.us/meeting/regi...
We’re thrilled to invite you to a session on “Introduction to Quantum Hardware” with Šimon Marek.
📅 Topic: Intro to Quantum Hardware
🎙️ Speaker: Šimon Marek
🔗 Register here: us06web.zoom.us/meeting/regi...
from a paper idk now
October 27, 2025 at 12:14 PM
from a paper idk now
What do you think about this meme on this paper?
Please share your opinions.
@bullshitquantum.bsky.social
@dulwichquantum.bsky.social
arxiv.org/pdf/2510.19928
Please share your opinions.
@bullshitquantum.bsky.social
@dulwichquantum.bsky.social
arxiv.org/pdf/2510.19928
October 25, 2025 at 10:04 AM
What do you think about this meme on this paper?
Please share your opinions.
@bullshitquantum.bsky.social
@dulwichquantum.bsky.social
arxiv.org/pdf/2510.19928
Please share your opinions.
@bullshitquantum.bsky.social
@dulwichquantum.bsky.social
arxiv.org/pdf/2510.19928
🏅 The 2025 @nobelprize.bsky.social in Physics goes to Clarke, Devoret & Martinis for showing that quantum effects can exist in circuits you can hold!
Their work laid the foundation for superconducting qubits — powering today’s #QuantumComputing revolution. ⚡🧠
#Nobel2025 #Physics #QuantumTech
Their work laid the foundation for superconducting qubits — powering today’s #QuantumComputing revolution. ⚡🧠
#Nobel2025 #Physics #QuantumTech
October 11, 2025 at 4:20 AM
🏅 The 2025 @nobelprize.bsky.social in Physics goes to Clarke, Devoret & Martinis for showing that quantum effects can exist in circuits you can hold!
Their work laid the foundation for superconducting qubits — powering today’s #QuantumComputing revolution. ⚡🧠
#Nobel2025 #Physics #QuantumTech
Their work laid the foundation for superconducting qubits — powering today’s #QuantumComputing revolution. ⚡🧠
#Nobel2025 #Physics #QuantumTech
quantum computing, and energy-efficient molecular devices.
⚡ Quantum chemistry is no longer theoretical — it’s the blueprint for future quantum tech.
#QuantumTech #Spintronics #MolecularWires #QuantumChemistry #ResearchExplained #OxfordScience #ScienceCommunication
⚡ Quantum chemistry is no longer theoretical — it’s the blueprint for future quantum tech.
#QuantumTech #Spintronics #MolecularWires #QuantumChemistry #ResearchExplained #OxfordScience #ScienceCommunication
October 7, 2025 at 9:09 AM
quantum computing, and energy-efficient molecular devices.
⚡ Quantum chemistry is no longer theoretical — it’s the blueprint for future quantum tech.
#QuantumTech #Spintronics #MolecularWires #QuantumChemistry #ResearchExplained #OxfordScience #ScienceCommunication
⚡ Quantum chemistry is no longer theoretical — it’s the blueprint for future quantum tech.
#QuantumTech #Spintronics #MolecularWires #QuantumChemistry #ResearchExplained #OxfordScience #ScienceCommunication
🧬 Oxford researchers uncover how spin — the quantum “twist” of electrons — governs charge recombination in molecular wires.
Their findings reveal distinct quantum mechanisms for singlet and triplet states, unlocking new possibilities for spintronics,
Their findings reveal distinct quantum mechanisms for singlet and triplet states, unlocking new possibilities for spintronics,
October 7, 2025 at 9:09 AM
🧬 Oxford researchers uncover how spin — the quantum “twist” of electrons — governs charge recombination in molecular wires.
Their findings reveal distinct quantum mechanisms for singlet and triplet states, unlocking new possibilities for spintronics,
Their findings reveal distinct quantum mechanisms for singlet and triplet states, unlocking new possibilities for spintronics,
Let's bust a quantum myth! ⚛️
The Claim: "Quantum entanglement allows for information to be transmitted faster than the speed of light."
This is a common sci-fi trope, but is it true? A thread. 👇 #QuantumMythbusters
The Claim: "Quantum entanglement allows for information to be transmitted faster than the speed of light."
This is a common sci-fi trope, but is it true? A thread. 👇 #QuantumMythbusters
September 13, 2025 at 9:11 AM
Let's bust a quantum myth! ⚛️
The Claim: "Quantum entanglement allows for information to be transmitted faster than the speed of light."
This is a common sci-fi trope, but is it true? A thread. 👇 #QuantumMythbusters
The Claim: "Quantum entanglement allows for information to be transmitted faster than the speed of light."
This is a common sci-fi trope, but is it true? A thread. 👇 #QuantumMythbusters
Quantum Tuesday #3 ✨
Paper of the week:
“A Singlet-Triplet Hole-Spin Qubit in MOS Silicon”
(Nature Communications, 2024)
Fast (400 MHz ⚡), coherent (1 μs 🕰️), and scalable — hole-spin qubits in silicon are a step closer to real-world quantum processors.
#QuantumComputing #QuantumTuesday
Paper of the week:
“A Singlet-Triplet Hole-Spin Qubit in MOS Silicon”
(Nature Communications, 2024)
Fast (400 MHz ⚡), coherent (1 μs 🕰️), and scalable — hole-spin qubits in silicon are a step closer to real-world quantum processors.
#QuantumComputing #QuantumTuesday
September 9, 2025 at 3:27 AM
Quantum Tuesday #3 ✨
Paper of the week:
“A Singlet-Triplet Hole-Spin Qubit in MOS Silicon”
(Nature Communications, 2024)
Fast (400 MHz ⚡), coherent (1 μs 🕰️), and scalable — hole-spin qubits in silicon are a step closer to real-world quantum processors.
#QuantumComputing #QuantumTuesday
Paper of the week:
“A Singlet-Triplet Hole-Spin Qubit in MOS Silicon”
(Nature Communications, 2024)
Fast (400 MHz ⚡), coherent (1 μs 🕰️), and scalable — hole-spin qubits in silicon are a step closer to real-world quantum processors.
#QuantumComputing #QuantumTuesday
Quantum computers don’t “try all answers at once.” ❌
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
September 6, 2025 at 3:57 AM
Quantum computers don’t “try all answers at once.” ❌
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
Quantum computers don’t “try all answers at once.” ❌
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
September 6, 2025 at 3:57 AM
Quantum computers don’t “try all answers at once.” ❌
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
They harness interference to cancel wrong paths & amplify the right one. 🌊⚛️
Quantum ≠ magic.
Quantum = smarter math + interference.
#QuantumComputing #QuantumMythbusters
Last week: molecules watched by quantum computers.
This week: molecules auditioning to BE quantum computers.
Paper: JACS 2014 (Influence of Electronic Spin and Spin–Orbit Coupling on Decoherence...)
#QuantumTuesday #Qubit #QuantumComputing
This week: molecules auditioning to BE quantum computers.
Paper: JACS 2014 (Influence of Electronic Spin and Spin–Orbit Coupling on Decoherence...)
#QuantumTuesday #Qubit #QuantumComputing
September 2, 2025 at 4:10 AM
Last week: molecules watched by quantum computers.
This week: molecules auditioning to BE quantum computers.
Paper: JACS 2014 (Influence of Electronic Spin and Spin–Orbit Coupling on Decoherence...)
#QuantumTuesday #Qubit #QuantumComputing
This week: molecules auditioning to BE quantum computers.
Paper: JACS 2014 (Influence of Electronic Spin and Spin–Orbit Coupling on Decoherence...)
#QuantumTuesday #Qubit #QuantumComputing
Star molecule:
T₂ = 3.4 μs
Showed clear Rabi oscillations!
This proves molecular qubits aren't limited to "simple" systems. Chemists have a rich new design space.
T₂ = 3.4 μs
Showed clear Rabi oscillations!
This proves molecular qubits aren't limited to "simple" systems. Chemists have a rich new design space.
September 2, 2025 at 4:10 AM
Star molecule:
T₂ = 3.4 μs
Showed clear Rabi oscillations!
This proves molecular qubits aren't limited to "simple" systems. Chemists have a rich new design space.
T₂ = 3.4 μs
Showed clear Rabi oscillations!
This proves molecular qubits aren't limited to "simple" systems. Chemists have a rich new design space.
Quantum Tuesday #2! 🧵
Spins, Symmetry & the Quest for Molecular Qubits.
Old rule: Good qubits need low spin & low spin-orbit coupling to avoid fast decoherence.
New finding: That's not always true! A Ru(III) complex defied expectations.
Spins, Symmetry & the Quest for Molecular Qubits.
Old rule: Good qubits need low spin & low spin-orbit coupling to avoid fast decoherence.
New finding: That's not always true! A Ru(III) complex defied expectations.
September 2, 2025 at 4:10 AM
Quantum Tuesday #2! 🧵
Spins, Symmetry & the Quest for Molecular Qubits.
Old rule: Good qubits need low spin & low spin-orbit coupling to avoid fast decoherence.
New finding: That's not always true! A Ru(III) complex defied expectations.
Spins, Symmetry & the Quest for Molecular Qubits.
Old rule: Good qubits need low spin & low spin-orbit coupling to avoid fast decoherence.
New finding: That's not always true! A Ru(III) complex defied expectations.
"Myth: Quantum computers break the laws of physics. ❌
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
August 30, 2025 at 10:09 AM
"Myth: Quantum computers break the laws of physics. ❌
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
"Myth: Quantum computers break the laws of physics. ❌
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
August 30, 2025 at 10:09 AM
"Myth: Quantum computers break the laws of physics. ❌
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
Truth: They’re built on quantum mechanics, the most tested physical theory ever. ✅
Nothing spooky—just physics. ⚛️
#QuantumMythbusters Ep. 2 | #QuantumSaturday
August 26, 2025 at 4:25 AM
Quantum Tuesday 🧪✨
Today’s paper read: “Experimental Quantum Simulation of Chemical Dynamics” (JACS 2025)
🔹 One trapped ion ≈ 11 qubits
🔹 Simulated ultrafast molecular dynamics
🔹 Even open systems with noise!
A glimpse of how quantum tech may revolutionise chemistry 🌱💊☀️
Today’s paper read: “Experimental Quantum Simulation of Chemical Dynamics” (JACS 2025)
🔹 One trapped ion ≈ 11 qubits
🔹 Simulated ultrafast molecular dynamics
🔹 Even open systems with noise!
A glimpse of how quantum tech may revolutionise chemistry 🌱💊☀️
August 26, 2025 at 4:25 AM
Quantum Tuesday 🧪✨
Today’s paper read: “Experimental Quantum Simulation of Chemical Dynamics” (JACS 2025)
🔹 One trapped ion ≈ 11 qubits
🔹 Simulated ultrafast molecular dynamics
🔹 Even open systems with noise!
A glimpse of how quantum tech may revolutionise chemistry 🌱💊☀️
Today’s paper read: “Experimental Quantum Simulation of Chemical Dynamics” (JACS 2025)
🔹 One trapped ion ≈ 11 qubits
🔹 Simulated ultrafast molecular dynamics
🔹 Even open systems with noise!
A glimpse of how quantum tech may revolutionise chemistry 🌱💊☀️
🔍 Quantum Mythbusters Ep.1
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
August 23, 2025 at 2:18 AM
🔍 Quantum Mythbusters Ep.1
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
🔍 Quantum Mythbusters Ep.1
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
August 23, 2025 at 2:18 AM
🔍 Quantum Mythbusters Ep.1
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
Myth: Quantum computers will replace classical ones.
Reality: They’re powerful for specific problems (factoring, simulating, optimization), but not for daily tasks like browsing or gaming.
💡 Classical > Quantum for most tasks (for now).
#QuantumSaturday #QuantumComputing
Take the quiz below to find out—and share your result in the comments! ⚛️
#QuantumComputing #STEM #TechFun #PersonalityQuiz #Innovation
#QuantumComputing #STEM #TechFun #PersonalityQuiz #Innovation
August 16, 2025 at 8:59 AM
Take the quiz below to find out—and share your result in the comments! ⚛️
#QuantumComputing #STEM #TechFun #PersonalityQuiz #Innovation
#QuantumComputing #STEM #TechFun #PersonalityQuiz #Innovation