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Mechanism for Band-Merging Transitions in Quasiperiodically Forced Systems

Mechanism for Band-Merging Transitions in Quasiperiodically Forced Systems. Woochang Lim and Sang-Yoon Kim Department of Physics Kangwon National University.  Quasiperiodically Forced 1D Map.  Band-Merging (BM) Transition of the Chaotic Attractor (CA).

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Mechanism for Band-Merging Transitions in Quasiperiodically Forced Systems

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  1. Mechanism for Band-Merging Transitions in Quasiperiodically Forced Systems Woochang Lim and Sang-Yoon Kim Department of Physics Kangwon National University  Quasiperiodically Forced 1D Map  Band-Merging (BM) Transition of the Chaotic Attractor (CA) Through a Collision with the CA and a Smooth Unstable Parent Torus (Dashed Line), the “Standard” BM Transition of the CA Occurs. Two-Band CA Single-Band CA a=3.596 =0.046 x=0.159 a=3.603 =0.053 x=0.96 Investigation of BM Transitions in M2: Two-Band CA in M A Pair of Conjugate CA in M2

  2. Phase Diagram near the Second Order Tongue Magnified Phase Diagram Route : Standard BM Transition of the CA through a Collision with the Smooth Unstable Parent Torus Route : Standard BM Transition of the Strange Nonchaotic Attractor (SNA) through a Collision with the Smooth Unstable Parent Torus Route : Appearance of the Single Band SNA via a Collision with the Smooth Unstable Parent Torus (Heagy-Hammel Route) Route A: BM Transition of the Smooth Torus through a Collision with a Ring-Shaped Unstable Set (RUS) Route B(C): BM Transition of the SNA (CA) through a Collision with a RUS Route a: Appearance of the Two-Band Intermittent SNA Route b: Attractor Widening Crisis of the SNA

  3. Basin Boundary Metamorphosis In M2, the Smooth Doubled Torus with Two Bands Turns into a Pair of Conjugate Tori inside Their Absorbing Area Bounded by the Critical Curves Lk (k=1, …, 8). The Basins of Upper and Lower Tori are shown in Light Gray and Gray, Respectively. A Smooth Unstable Torus (Dashed Line) Lies on a Basin Boundary. Through a Breakup of the Absorbing Area via a Collision with the Smooth Unstable Parent Torus on the Basin Boundary, “Holes” of other basin of the counterpart Appear inside the Basins of the Smooth Attracting Tori. Through the Basin Boundary Metamorphosis, the Smooth Unstable Parent Torus Becomes Inaccessible from the Interior of Basin of the Upper and Lower Tori. a=3.46 =0.11 a=3.48 =0.13

  4. Ring-Shaped Unstable Set  Rational Approximation (RA) • Investigation of the BM Transition in a Sequence of Periodically Forced Systems with Rational Driving Frequencies k, Corresponding to the RA to the Quasiperiodic Forcing  : • Properties of the Quasiperiodically Forced Systems Obtained by Taking the Quasiperiodic Limit k . • Evolution of the Rings • BirthofaRUS • Appearance of CA via Period-Doubling Bifurcations (PDBs) and Its Disappearance via a Boundary Crisis (Lower Gray Line: Period-F5 (=5) Orbits Destabilized via PDBs) • RUS of Level k=5: Composed of 5 Small Rings Each Ring: Composed of Stable (Black) and Unstable (Gray) Orbits with Period F5 (=5) (Unstable Part: Toward the Smooth Torus  They may Interact.) Expectation: In the Quasiperiodic Limit, the RUS forms a Complicated Unstable Set Composed of Only Unstable Orbits

  5. Band-Merging Transition of the Smooth Torus Through a Collision with a Smooth Doubled Torus with Two Bands and Hole Boundary, BM Transition of the Smooth Torus Occurs, and then a Single-Band SNA Appears. Single-Band SNA Smooth Doubled Torus with Two Bands

  6. Mechanism for the Band-Merging of the Smooth Torus In the RA of level k=8, thePhase-Dependent Saddle-Node-Bifurcation between Smooth Torus and RUS on the Hole Boundary Occurs for (=0.159 750 121) when a=3.43.  Appearance of F8 (=21) “Gaps”, where Single-Band Intermittent CAs Exist.

  7. Band-Merging Transition of SNA and CA through Collisions with RUSs  BM Transition of the SNA for =0.1305 Two-Band SNA for a=3.5153 Single-Band SNA for a=3.5157  BM Transition of the CA for =0.105 Two-Band CA for a=3.535 Single-Band CA for a=3.545

  8. Mechanism for the Band-Merging Transition of SNA In the RA of level k=8, the Interior Crisis of the Chaotic Component of the RA of the SNA and RUS on the Hole Boundary Occurs for (=3.522 675 762) when =0.1305.  Appearance of F8 (=21) gaps, where Single-Band Intermittent CAs Exist. Mechanism for the BM Transition of a CA is the Same as That for the Case of SNA.

  9. Summary • Investigation of the Band-Merging Transition Using the Rational Approximation New Type of Band-Merging Transition for a Nonchaotic Attractor (Smooth Torus or SNA) as well as a Chaotic Attractor Occurs through the Collision with a Ring-Shaped Unstable Set. Particularly, a Single-Band SNA Appears via a New Band-Merging Transition of a Smooth Doubled Torus.  New Mechanism for the Birth of SNA

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